The following information is also available:
infile,f,a,"ae803005010.att",,,"input attitude file name" outfile,f,a,"ae803005010.att.tmp",,,"output attitude file name" orbit,f,a,"ae803005010.orb",,,"orbit file name" hkfile,f,a,"ae803005010.hk",,,"common HK file name" hk_time_margin,r,h,60,,,"HK time margin in second" clobber,b,h,yes,,,"Overwrite output file if exists?" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aeattcor
aeattcor version 2007-07-16
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aeattcor version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
aeattcor: *** show parameter ***
INFILE 'ae803005010.att'
OUTFILE 'ae803005010.att.tmp'
ORBIT 'ae803005010.orb'
HKFILE 'ae803005010.hk'
HK_TIME_MARGIN 60.0 (s)
CLOBBER YES
aste_orbit: reading 'ae803005010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=34566, nkp=30241, tstart=266544001.0, tstop=268358401.0
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae803005010.hk'
aste_gethk-2.5: t=267302546.983 < TSTART=267335881.322 for 'HK_XIS_RAD6_T1_CAL' in 'ae803005010.hk'
aeattcor: INFO: TSTART=267335881.3 for ae803005010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae803005010.hk'
aste_gethk-2.5: found 'HK_XIS_RAD8_T1_CAL' at hdu=3, col=138 in 'ae803005010.hk'
aste_gethk-2.5: t=267533123.827 > TSTOP=267533123.796 for 'HK_XIS_RAD6_T1_CAL'
aeattcor: INFO: TSTOP=267533123.8 for ae803005010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae803005010.hk'
NUM_CORR = 273972 / number of corrected Euler angles
AVG_LAMB = 178.3156 / average ecliptic longitude (deg)
AVG_BETA = +19.1625 / average ecliptic latitude (deg)
AVG_XOFF = -21.6049 / average DETX offset (pixel)
AVG_YOFF = 6.3165 / average DETY offset (pixel)
SGM_XOFF = 1.2316 / 1 sigma DETX offset standard deviation (pixel)
SGM_YOFF = 6.5262 / 1 sigma DETY offset standard deviation (pixel)
Event... 1 (0)
aeattcor: INFO: created 'ae803005010.att.tmp'
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
QUIT: 1 |
<--- [ 1] aeattcor version 1.2
| OK: 0/1
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] aeattcor 5.155 1.256 6.411 99.67
(others) 0.011 0.010 0.021 0.33
--------------------------------------------------------------------------
TOTAL 5.166 1.266 6.432 100.00
-> aeattcor successful for ae803005010.att.attitude,f,a,"ae803005010.att",,,"input attitude file" filelist,f,a,"@file.lst",,,"file name or @filelist to modify FITS keywords" leapfile,f,h,"CALDB",,,"location of leap-seconds file" xrs_teldef,f,h,"CALDB",,,"location of XRS teldef file" hxd_teldef,f,h,"CALDB",,,"location of HXD teldef file" xis0_teldef,f,h,"CALDB",,,"location of XIS0 teldef file" xis1_teldef,f,h,"CALDB",,,"location of XIS1 teldef file" xis2_teldef,f,h,"CALDB",,,"location of XIS2 teldef file" xis3_teldef,f,h,"CALDB",,,"location of XIS3 teldef file" sample_sec,r,h,60,0.0,,"sampling time in second (s)" offset_tolerance,r,h,2,0.0,,"offset angle tolerance (arcmin)" roll_tolerance,r,h,1,0.0,,"roll angle tolerance (degree)" num_split,i,h,4,0,,"number of splitting time intervals" adopt_median,b,h,yes,,,"adopt median instead of average" update_obs,b,h,yes,,,"update OBS_MODE/OBS_ID/OBS_REM/NOM_PNT keywords" update_obj,b,h,yes,,,"update OBJECT/RA_OBJ/DEC_OBJ keywords" update_nom,b,h,yes,,,"update RA_NOM/DEC_NOM/PA_NOM keywords" update_pnt,b,h,yes,,,"update RA_PNT/DEC_PNT keywords" update_ea,b,h,yes,,,"update MEAN_EA1/MEAN_EA2/MEAN_EA3 keywords" update_date,b,h,yes,,,"update DATE-OBS/DATE-END keywords" date_obs,s,h,"MNV_END",,,"value or keyword name for DATE-OBS" date_end,s,h,"MNV_NEXT",,,"value or keyword name for DATE-END" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aeaspect
aeaspect version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aeaspect version 2.3
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
aeaspect: *** show parameter ***
ATTITUDE 'ae803005010.att'
MOD_FILE_LIST '@file.lst'
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB)
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits' (CALDB)
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/bcf/ae_hxd_teldef_20060810.fits' (CALDB)
XIS0_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
XIS1_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
XIS2_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi2_teldef_20080303.fits' (CALDB)
XIS3_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
SAMPLE_SEC 60.000 (s)
OFFSET_TOLERANCE 2.000000 (arcmin)
ROLL_TOLERANCE 1.000000 (degree)
ADOPT_MEDIAN YES
UPDATE_OBS YES
UPDATE_OBJ YES
UPDATE_NOM YES
UPDATE_PNT YES
UPDATE_EA YES
UPDATE_DATE YES
DATE_OBS 'MNV_END'
DATE_END 'MNV_NEXT'
aeaspect: date_obs='MNV_END ' found in attitude header, t=267335876.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=267533125.0
aste_aspect version 1.8
aspecting attitude: ae803005010.att
TELESCOP='SUZAKU', OBJECT='NGC 4382', (RA,DEC)=(186.3502, 18.1911)
using teldef file: /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits
TELESCOP='SUZAKU', INSTRUME='XRS'
attitude START STOP dT: 267302546.982805 267543885.950777 241338.967972
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-20 18:42:25 (54637.77946739)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-23 13:44:44 (54640.57274249)
aspecting START STOP dT: 267335876.000000 267533125.000000 197249.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-21 03:57:55 (54638.16521991)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-23 10:45:24 (54640.44819444)
averaging attitude in 60 sec sampling, 3288 points
Sample Time : 60.0 s Number of Accept / Sample : 3288 / 3288
TIME START STOP TELAPSE (s) : 267335876.0 267533125.0 197249.0
START DATE TIME in UTC (MJD): 2008-06-21 03:57:55 (54638.16521991)
STOP DATE TIME in UTC (MJD): 2008-06-23 10:45:24 (54640.44819444)
Mean [MEDIAN] Euler angles : 186.349158 71.814883 155.821291
RA DEC SUN ANGLE
Mean Sun position (deg) : 91.234932 23.440790
Mean aberration (arcsec) : 1.996271 6.521894
Mean satellite X-axis (deg) : 311.153030 60.078226 90.356593
Mean satellite Y-axis (deg) : 88.372883 22.900167 2.686101
Mean satellite Z-axis (deg) : 186.349158 18.185117 87.337709
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 186.349158 18.185117 294.178709
Average 186.349708 18.185221 294.178981
Minimum 186.343131 18.179448 294.170838
Maximum 186.420598 18.238881 294.242407 5.194726
Sigma (RMS) 0.005125 0.003338 0.004330 0.355641
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '803005010' / Observation identification string
OBSERVER= 'KYOKO MATSUSHITA' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'NGC 4382' / name of observed object
RA_OBJ = 186.3502 / planned target R.A.(deg)
DEC_OBJ = 18.1911 / planned target DEC.(deg)
RA_NOM = 186.3492 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 18.1851 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 294.1787 / nominal position angle from north to DETY(deg)
MEAN_EA1= 186.349157865585 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 71.814883272158 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 155.821291080941 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae803005010.att' / name of the satellite attitude file
DATE-OBS= '2008-06-21T03:57:55'/ start date of observations (UT)
DATE-END= '2008-06-23T10:45:24'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 186.3492 / average optical axis location R.A.(deg)
DEC_PNT = 18.1851 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 186.3743 / average optical axis location R.A.(deg)
DEC_PNT = 18.2383 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3407 / average optical axis location R.A.(deg)
DEC_PNT = 18.1647 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3536 / average optical axis location R.A.(deg)
DEC_PNT = 18.1709 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3492 / average optical axis location R.A.(deg)
DEC_PNT = 18.1954 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3430 / average optical axis location R.A.(deg)
DEC_PNT = 18.1980 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae803005010hxd_1_bst01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 2] Processing 'ae803005010hxd_1_wam.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 3] Processing 'ae803005010hxd_1_wel.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 4] Processing 'ae803005010hxd_2_bst01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 5] Processing 'ae803005010hxd_2_bst02.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 6] Processing 'ae803005010hxd_2_wam.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 7] Processing 'ae803005010hxd_2_wel.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 8] Processing 'ae803005010hxd_3_wam.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 9] Processing 'ae803005010hxd_3_wel.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[10] Processing 'ae803005010xi0_1_3x3n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[11] Processing 'ae803005010xi0_1_5x5n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[12] Processing 'ae803005010xi0_1_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
[13] Processing 'ae803005010xi0_1_dun066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[14] Processing 'ae803005010xi0_2_3x3n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[15] Processing 'ae803005010xi0_2_5x5n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[16] Processing 'ae803005010xi0_2_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
[17] Processing 'ae803005010xi0_2_dun066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[18] Processing 'ae803005010xi0_3_3x3n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[19] Processing 'ae803005010xi1_1_3x3n069.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
+3: TELESCOP='SUZAKU', INSTRUME='XIS1'
+4: TELESCOP='SUZAKU', INSTRUME='XIS1'
+5: TELESCOP='SUZAKU', INSTRUME='XIS1'
[20] Processing 'ae803005010xi1_1_5x5n069.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
+3: TELESCOP='SUZAKU', INSTRUME='XIS1'
+4: TELESCOP='SUZAKU', INSTRUME='XIS1'
+5: TELESCOP='SUZAKU', INSTRUME='XIS1'
[21] Processing 'ae803005010xi1_1_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
[22] Processing 'ae803005010xi1_1_dun069.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
+3: TELESCOP='SUZAKU', INSTRUME='XIS1'
+4: TELESCOP='SUZAKU', INSTRUME='XIS1'
+5: TELESCOP='SUZAKU', INSTRUME='XIS1'
[23] Processing 'ae803005010xi1_2_3x3n069.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
+3: TELESCOP='SUZAKU', INSTRUME='XIS1'
+4: TELESCOP='SUZAKU', INSTRUME='XIS1'
+5: TELESCOP='SUZAKU', INSTRUME='XIS1'
[24] Processing 'ae803005010xi1_2_5x5n069.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
+3: TELESCOP='SUZAKU', INSTRUME='XIS1'
+4: TELESCOP='SUZAKU', INSTRUME='XIS1'
+5: TELESCOP='SUZAKU', INSTRUME='XIS1'
[25] Processing 'ae803005010xi1_2_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
[26] Processing 'ae803005010xi1_2_dun069.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
+3: TELESCOP='SUZAKU', INSTRUME='XIS1'
+4: TELESCOP='SUZAKU', INSTRUME='XIS1'
+5: TELESCOP='SUZAKU', INSTRUME='XIS1'
[27] Processing 'ae803005010xi1_3_3x3n069.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
+3: TELESCOP='SUZAKU', INSTRUME='XIS1'
+4: TELESCOP='SUZAKU', INSTRUME='XIS1'
+5: TELESCOP='SUZAKU', INSTRUME='XIS1'
[28] Processing 'ae803005010xi2_1_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
+2: TELESCOP='SUZAKU', INSTRUME='XIS2'
[29] Processing 'ae803005010xi2_2_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
+2: TELESCOP='SUZAKU', INSTRUME='XIS2'
[30] Processing 'ae803005010xi3_1_3x3n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
+3: TELESCOP='SUZAKU', INSTRUME='XIS3'
+4: TELESCOP='SUZAKU', INSTRUME='XIS3'
+5: TELESCOP='SUZAKU', INSTRUME='XIS3'
[31] Processing 'ae803005010xi3_1_5x5n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
+3: TELESCOP='SUZAKU', INSTRUME='XIS3'
+4: TELESCOP='SUZAKU', INSTRUME='XIS3'
+5: TELESCOP='SUZAKU', INSTRUME='XIS3'
[32] Processing 'ae803005010xi3_1_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
[33] Processing 'ae803005010xi3_1_dun066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
+3: TELESCOP='SUZAKU', INSTRUME='XIS3'
+4: TELESCOP='SUZAKU', INSTRUME='XIS3'
+5: TELESCOP='SUZAKU', INSTRUME='XIS3'
[34] Processing 'ae803005010xi3_2_3x3n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
+3: TELESCOP='SUZAKU', INSTRUME='XIS3'
+4: TELESCOP='SUZAKU', INSTRUME='XIS3'
+5: TELESCOP='SUZAKU', INSTRUME='XIS3'
[35] Processing 'ae803005010xi3_2_5x5n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
+3: TELESCOP='SUZAKU', INSTRUME='XIS3'
+4: TELESCOP='SUZAKU', INSTRUME='XIS3'
+5: TELESCOP='SUZAKU', INSTRUME='XIS3'
[36] Processing 'ae803005010xi3_2_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
[37] Processing 'ae803005010xi3_2_dun066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
+3: TELESCOP='SUZAKU', INSTRUME='XIS3'
+4: TELESCOP='SUZAKU', INSTRUME='XIS3'
+5: TELESCOP='SUZAKU', INSTRUME='XIS3'
[38] Processing 'ae803005010xi3_3_3x3n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
+3: TELESCOP='SUZAKU', INSTRUME='XIS3'
+4: TELESCOP='SUZAKU', INSTRUME='XIS3'
+5: TELESCOP='SUZAKU', INSTRUME='XIS3'
[39] Processing 'ae803005010.hk'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
+2: TELESCOP='SUZAKU', INSTRUME=''
+3: TELESCOP='SUZAKU', INSTRUME=''
+4: TELESCOP='SUZAKU', INSTRUME=''
+5: TELESCOP='SUZAKU', INSTRUME=''
+6: TELESCOP='SUZAKU', INSTRUME=''
+7: TELESCOP='SUZAKU', INSTRUME=''
+8: TELESCOP='SUZAKU', INSTRUME=''
+9: TELESCOP='SUZAKU', INSTRUME=''
+10: TELESCOP='SUZAKU', INSTRUME=''
+11: TELESCOP='SUZAKU', INSTRUME=''
+12: TELESCOP='SUZAKU', INSTRUME=''
+13: TELESCOP='SUZAKU', INSTRUME=''
+14: TELESCOP='SUZAKU', INSTRUME=''
+15: TELESCOP='SUZAKU', INSTRUME=''
+16: TELESCOP='SUZAKU', INSTRUME=''
+17: TELESCOP='SUZAKU', INSTRUME=''
+18: TELESCOP='SUZAKU', INSTRUME=''
+19: TELESCOP='SUZAKU', INSTRUME=''
+20: TELESCOP='SUZAKU', INSTRUME=''
+21: TELESCOP='SUZAKU', INSTRUME=''
+22: TELESCOP='SUZAKU', INSTRUME=''
+23: TELESCOP='SUZAKU', INSTRUME=''
[40] Processing 'ae803005010hxd_0.hk'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
+3: TELESCOP='SUZAKU', INSTRUME='HXD'
+4: TELESCOP='SUZAKU', INSTRUME='HXD'
+5: TELESCOP='SUZAKU', INSTRUME='HXD'
+6: TELESCOP='SUZAKU', INSTRUME='HXD'
+7: TELESCOP='SUZAKU', INSTRUME='HXD'
+8: TELESCOP='SUZAKU', INSTRUME='HXD'
+9: TELESCOP='SUZAKU', INSTRUME='HXD'
+10: TELESCOP='SUZAKU', INSTRUME='HXD'
+11: TELESCOP='SUZAKU', INSTRUME='HXD'
+12: TELESCOP='SUZAKU', INSTRUME='HXD'
+13: TELESCOP='SUZAKU', INSTRUME='HXD'
+14: TELESCOP='SUZAKU', INSTRUME='HXD'
+15: TELESCOP='SUZAKU', INSTRUME='HXD'
+16: TELESCOP='SUZAKU', INSTRUME='HXD'
+17: TELESCOP='SUZAKU', INSTRUME='HXD'
+18: TELESCOP='SUZAKU', INSTRUME='HXD'
+19: TELESCOP='SUZAKU', INSTRUME='HXD'
+20: TELESCOP='SUZAKU', INSTRUME='HXD'
+21: TELESCOP='SUZAKU', INSTRUME='HXD'
+22: TELESCOP='SUZAKU', INSTRUME='HXD'
[41] Processing 'ae803005010xi0_0.hk'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
+6: TELESCOP='SUZAKU', INSTRUME='XIS0'
+7: TELESCOP='SUZAKU', INSTRUME='XIS0'
+8: TELESCOP='SUZAKU', INSTRUME='XIS0'
+9: TELESCOP='SUZAKU', INSTRUME='XIS0'
[42] Processing 'ae803005010xi1_0.hk'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
+3: TELESCOP='SUZAKU', INSTRUME='XIS1'
+4: TELESCOP='SUZAKU', INSTRUME='XIS1'
+5: TELESCOP='SUZAKU', INSTRUME='XIS1'
+6: TELESCOP='SUZAKU', INSTRUME='XIS1'
+7: TELESCOP='SUZAKU', INSTRUME='XIS1'
+8: TELESCOP='SUZAKU', INSTRUME='XIS1'
+9: TELESCOP='SUZAKU', INSTRUME='XIS1'
[43] Processing 'ae803005010xi2_0.hk'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
+2: TELESCOP='SUZAKU', INSTRUME='XIS2'
+3: TELESCOP='SUZAKU', INSTRUME='XIS2'
+4: TELESCOP='SUZAKU', INSTRUME='XIS2'
+5: TELESCOP='SUZAKU', INSTRUME='XIS2'
+6: TELESCOP='SUZAKU', INSTRUME='XIS2'
+7: TELESCOP='SUZAKU', INSTRUME='XIS2'
+8: TELESCOP='SUZAKU', INSTRUME='XIS2'
+9: TELESCOP='SUZAKU', INSTRUME='XIS2'
[44] Processing 'ae803005010xi3_0.hk'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
+3: TELESCOP='SUZAKU', INSTRUME='XIS3'
+4: TELESCOP='SUZAKU', INSTRUME='XIS3'
+5: TELESCOP='SUZAKU', INSTRUME='XIS3'
+6: TELESCOP='SUZAKU', INSTRUME='XIS3'
+7: TELESCOP='SUZAKU', INSTRUME='XIS3'
+8: TELESCOP='SUZAKU', INSTRUME='XIS3'
+9: TELESCOP='SUZAKU', INSTRUME='XIS3'
[45] Processing 'ae803005010xrs_0.hk'
+0: TELESCOP='SUZAKU', INSTRUME='XRS'
+1: TELESCOP='SUZAKU', INSTRUME='XRS'
+2: TELESCOP='SUZAKU', INSTRUME='XRS'
+3: TELESCOP='SUZAKU', INSTRUME='XRS'
+4: TELESCOP='SUZAKU', INSTRUME='XRS'
+5: TELESCOP='SUZAKU', INSTRUME='XRS'
+6: TELESCOP='SUZAKU', INSTRUME='XRS'
+7: TELESCOP='SUZAKU', INSTRUME='XRS'
+8: TELESCOP='SUZAKU', INSTRUME='XRS'
+9: TELESCOP='SUZAKU', INSTRUME='XRS'
+10: TELESCOP='SUZAKU', INSTRUME='XRS'
+11: TELESCOP='SUZAKU', INSTRUME='XRS'
+12: TELESCOP='SUZAKU', INSTRUME='XRS'
+13: TELESCOP='SUZAKU', INSTRUME='XRS'
+14: TELESCOP='SUZAKU', INSTRUME='XRS'
+15: TELESCOP='SUZAKU', INSTRUME='XRS'
+16: TELESCOP='SUZAKU', INSTRUME='XRS'
+17: TELESCOP='SUZAKU', INSTRUME='XRS'
+18: TELESCOP='SUZAKU', INSTRUME='XRS'
+19: TELESCOP='SUZAKU', INSTRUME='XRS'
+20: TELESCOP='SUZAKU', INSTRUME='XRS'
+21: TELESCOP='SUZAKU', INSTRUME='XRS'
+22: TELESCOP='SUZAKU', INSTRUME='XRS'
+23: TELESCOP='SUZAKU', INSTRUME='XRS'
+24: TELESCOP='SUZAKU', INSTRUME='XRS'
+25: TELESCOP='SUZAKU', INSTRUME='XRS'
+26: TELESCOP='SUZAKU', INSTRUME='XRS'
+27: TELESCOP='SUZAKU', INSTRUME='XRS'
+28: TELESCOP='SUZAKU', INSTRUME='XRS'
+29: TELESCOP='SUZAKU', INSTRUME='XRS'
+30: TELESCOP='SUZAKU', INSTRUME='XRS'
[46] Processing 'ae803005010xi0_0_066.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
[47] Processing 'ae803005010xi1_0_069.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
[48] Processing 'ae803005010xi2_0_000.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
[49] Processing 'ae803005010xi3_0_066.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
[50] Processing 'ae803005010.orb'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
+2: TELESCOP='SUZAKU', INSTRUME=''
[51] Processing 'ae803005010.att'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
[52] Processing 'ae803005010.tim'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
+2: TELESCOP='SUZAKU', INSTRUME=''
+3: TELESCOP='SUZAKU', INSTRUME=''
+4: TELESCOP='SUZAKU', INSTRUME=''
+5: TELESCOP='SUZAKU', INSTRUME=''
Finished.
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 53
QUIT: 1 |
<--- [ 1] aeaspect version 2.3
| OK: 52/53
GET: 52
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] aeaspect 4.315 12.940 17.255 99.82
(others) 0.025 0.006 0.031 0.18
--------------------------------------------------------------------------
TOTAL 4.340 12.946 17.286 100.00
-> Nominal spacecraft Euler angles: Phi=186.349157865585 Theta=71.814883272158 Psi=155.821291080941outfile,f,a,"ae803005010.ehk",,,"output .ehk file" orbit,f,a,"ae803005010.orb",,,"input orbit file" attitude,f,a,"ae803005010.att",,,"input attitude file" reference,f,a,"none",,,"time reference file, or NONE to specify step" teldef,f,h,"CALDB",,,"teldef file" leapfile,f,h,"CALDB",,,"location of leap-seconds file" rigidity,f,h,"CALDB",,,"location of rigidity file for COR2 column" time_col_name,s,h,"TIME",,,"time column name" start_time,r,a,267335817.008613,,,"start time" stop_time,r,a,267533185.795917,,,"stop time" step_sec,r,a,1,,,"step time in sec" margin_sec,r,a,60,,,"margin time in sec" clobber,b,h,yes,,,"Overwrite output file if exists?" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aemkehk
aemkehk version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] AEmkEHKtimeGen version 2.4
[ 2] AEmkEHKfitsWrite version 2.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
aemkehk: *** show parameter ***
OUTFILE 'ae803005010.ehk'
ORBIT 'ae803005010.orb'
ATTITUDE 'ae803005010.att'
REFERENCE 'none'
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB)
RIGIDITY '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/rigidity_20060421.fits' (CALDB)
TSTART 267335817.008613
TSTOP 267533185.795917
TIME_COL_NAME ''
STEP_SEC 1.0
MARGIN_SEC 60.0
CLOBBER YES
aste_orbit: reading 'ae803005010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=34566, nkp=30241, tstart=266544001.0, tstop=268358401.0
aemkehk: generate TIME from 267335757.000 to 267533246.000,
in 1.0 sec step, 197490 rows
aemkehk: creating ehk file 'ae803005010.ehk'
Event... 1 (0)
Event... 100001 (100000)
aemkehk: 'ae803005010.ehk' created
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 197491
QUIT: 1 |
<--- [ 1] AEmkEHKtimeGen version 2.4
| OK: 197490/197491
[ 2] AEmkEHKfitsWrite version 2.4
| OK: 197490/197490
GET: 197490
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 41/5000
buffer size : 120000
buffer used : 688
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
ASTE:EHK:OFILE_NAME:PTR 4 4 1 1 SINGLE
ASTE:EHK:OFP 4 4 1 2 SINGLE
ASTE:ORBIT:PTR 4 4 1 1 SINGLE
ASTE:ATTFILE:PTR 4 4 1 1 SINGLE
ASTE:LEAPFILE:PTR 4 4 1 1 SINGLE
ASTE:RIGIDITY:PTR 4 4 1 1 SINGLE
ASTE:TELDEF:PTR 4 4 1 1 SINGLE
ASTE:MEAN_EA 24 24 1 0 SINGLE
ASTE:MEAN_FOV 24 24 1 1 SINGLE
ASTE:TIME 8 8 197490 197490 SINGLE
ASTE:EHK:EULER1 8 8 197490 0 SINGLE
ASTE:EHK:EULER2 8 8 197490 0 SINGLE
ASTE:EHK:EULER3 8 8 197490 0 SINGLE
ASTE:EHK:FOC_RA 8 8 197490 0 SINGLE
ASTE:EHK:FOC_DEC 8 8 197490 0 SINGLE
ASTE:EHK:FOC_ROLL 8 8 197490 0 SINGLE
ASTE:EHK:DLT_RA 8 8 197490 0 SINGLE
ASTE:EHK:DLT_DEC 8 8 197490 0 SINGLE
ASTE:EHK:DLT_ROLL 8 8 197490 0 SINGLE
ASTE:EHK:ANG_DIST 8 8 197490 0 SINGLE
ASTE:EHK:SAT_ALT 8 8 197490 0 SINGLE
ASTE:EHK:SAT_LON 8 8 197490 0 SINGLE
ASTE:EHK:SAT_LAT 8 8 197490 0 SINGLE
ASTE:EHK:ELV 8 8 197490 0 SINGLE
ASTE:EHK:DYE_ELV 8 8 197490 0 SINGLE
ASTE:EHK:NTE_ELV 8 8 197490 0 SINGLE
ASTE:EHK:SUN_ALT 8 8 197490 0 SINGLE
ASTE:EHK:T_DY_NT 8 8 197490 0 SINGLE
ASTE:EHK:TN_DY_NT 8 8 197490 0 SINGLE
ASTE:EHK:COR 8 8 197490 0 SINGLE
ASTE:EHK:COR2 8 8 197490 0 SINGLE
ASTE:EHK:SAA 4 4 197490 0 SINGLE
ASTE:EHK:T_SAA 8 8 197490 0 SINGLE
ASTE:EHK:TN_SAA 8 8 197490 0 SINGLE
ASTE:EHK:SAA_HXD 4 4 197490 0 SINGLE
ASTE:EHK:T_SAA_HXD 8 8 197490 0 SINGLE
ASTE:EHK:TN_SAA_HXD 8 8 197490 0 SINGLE
ASTE:EHK:ZGMAG_ANG 8 8 197490 0 SINGLE
ASTE:EHK:ZGMAG_PHI 8 8 197490 0 SINGLE
ASTE:EHK:ZE_ANG 8 8 197490 0 SINGLE
ASTE:EHK:ZE_PHI 8 8 197490 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] AEmkEHKtimeGen 0.325 0.123 0.448 2.42
[ 2] AEmkEHKfitsWrite 17.573 0.442 18.015 97.47
(others) 0.015 0.005 0.020 0.11
--------------------------------------------------------------------------
TOTAL 17.913 0.570 18.483 100.00
-> aemkehk created ae803005010.ehk.attitude,f,a,"ae803005010.att",,,"input attitude file" filelist,f,a,"ae803005010.ehk",,,"file name or @filelist to modify FITS keywords" leapfile,f,h,"CALDB",,,"location of leap-seconds file" xrs_teldef,f,h,"CALDB",,,"location of XRS teldef file" hxd_teldef,f,h,"CALDB",,,"location of HXD teldef file" xis0_teldef,f,h,"CALDB",,,"location of XIS0 teldef file" xis1_teldef,f,h,"CALDB",,,"location of XIS1 teldef file" xis2_teldef,f,h,"CALDB",,,"location of XIS2 teldef file" xis3_teldef,f,h,"CALDB",,,"location of XIS3 teldef file" sample_sec,r,h,60,0.0,,"sampling time in second (s)" offset_tolerance,r,h,2,0.0,,"offset angle tolerance (arcmin)" roll_tolerance,r,h,1,0.0,,"roll angle tolerance (degree)" num_split,i,h,4,0,,"number of splitting time intervals" adopt_median,b,h,yes,,,"adopt median instead of average" update_obs,b,h,yes,,,"update OBS_MODE/OBS_ID/OBS_REM/NOM_PNT keywords" update_obj,b,h,yes,,,"update OBJECT/RA_OBJ/DEC_OBJ keywords" update_nom,b,h,yes,,,"update RA_NOM/DEC_NOM/PA_NOM keywords" update_pnt,b,h,yes,,,"update RA_PNT/DEC_PNT keywords" update_ea,b,h,yes,,,"update MEAN_EA1/MEAN_EA2/MEAN_EA3 keywords" update_date,b,h,yes,,,"update DATE-OBS/DATE-END keywords" date_obs,s,h,"MNV_END",,,"value or keyword name for DATE-OBS" date_end,s,h,"MNV_NEXT",,,"value or keyword name for DATE-END" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aeaspect
aeaspect version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aeaspect version 2.3
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
aeaspect: *** show parameter ***
ATTITUDE 'ae803005010.att'
MOD_FILE_LIST 'ae803005010.ehk'
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB)
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits' (CALDB)
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/bcf/ae_hxd_teldef_20060810.fits' (CALDB)
XIS0_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
XIS1_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
XIS2_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi2_teldef_20080303.fits' (CALDB)
XIS3_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
SAMPLE_SEC 60.000 (s)
OFFSET_TOLERANCE 2.000000 (arcmin)
ROLL_TOLERANCE 1.000000 (degree)
ADOPT_MEDIAN YES
UPDATE_OBS YES
UPDATE_OBJ YES
UPDATE_NOM YES
UPDATE_PNT YES
UPDATE_EA YES
UPDATE_DATE YES
DATE_OBS 'MNV_END'
DATE_END 'MNV_NEXT'
aeaspect: date_obs='MNV_END ' found in attitude header, t=267335876.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=267533125.0
aste_aspect version 1.8
aspecting attitude: ae803005010.att
TELESCOP='SUZAKU', OBJECT='NGC 4382', (RA,DEC)=(186.3502, 18.1911)
using teldef file: /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits
TELESCOP='SUZAKU', INSTRUME='XRS'
attitude START STOP dT: 267302546.982805 267543885.950777 241338.967972
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-20 18:42:25 (54637.77946739)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-23 13:44:44 (54640.57274249)
aspecting START STOP dT: 267335876.000000 267533125.000000 197249.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-21 03:57:55 (54638.16521991)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-23 10:45:24 (54640.44819444)
averaging attitude in 60 sec sampling, 3288 points
Sample Time : 60.0 s Number of Accept / Sample : 3288 / 3288
TIME START STOP TELAPSE (s) : 267335876.0 267533125.0 197249.0
START DATE TIME in UTC (MJD): 2008-06-21 03:57:55 (54638.16521991)
STOP DATE TIME in UTC (MJD): 2008-06-23 10:45:24 (54640.44819444)
Mean [MEDIAN] Euler angles : 186.349158 71.814883 155.821291
RA DEC SUN ANGLE
Mean Sun position (deg) : 91.234932 23.440790
Mean aberration (arcsec) : 1.996271 6.521894
Mean satellite X-axis (deg) : 311.153030 60.078226 90.356593
Mean satellite Y-axis (deg) : 88.372883 22.900167 2.686101
Mean satellite Z-axis (deg) : 186.349158 18.185117 87.337709
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 186.349158 18.185117 294.178709
Average 186.349708 18.185221 294.178981
Minimum 186.343131 18.179448 294.170838
Maximum 186.420598 18.238881 294.242407 5.194726
Sigma (RMS) 0.005125 0.003338 0.004330 0.355641
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '803005010' / Observation identification string
OBSERVER= 'KYOKO MATSUSHITA' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'NGC 4382' / name of observed object
RA_OBJ = 186.3502 / planned target R.A.(deg)
DEC_OBJ = 18.1911 / planned target DEC.(deg)
RA_NOM = 186.3492 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 18.1851 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 294.1787 / nominal position angle from north to DETY(deg)
MEAN_EA1= 186.349157865585 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 71.814883272158 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 155.821291080941 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae803005010.att' / name of the satellite attitude file
DATE-OBS= '2008-06-21T03:57:55'/ start date of observations (UT)
DATE-END= '2008-06-23T10:45:24'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 186.3492 / average optical axis location R.A.(deg)
DEC_PNT = 18.1851 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 186.3743 / average optical axis location R.A.(deg)
DEC_PNT = 18.2383 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3407 / average optical axis location R.A.(deg)
DEC_PNT = 18.1647 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3536 / average optical axis location R.A.(deg)
DEC_PNT = 18.1709 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3492 / average optical axis location R.A.(deg)
DEC_PNT = 18.1954 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3430 / average optical axis location R.A.(deg)
DEC_PNT = 18.1980 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae803005010.ehk'
+1: TELESCOP='SUZAKU', INSTRUME=''
Finished.
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 2
QUIT: 1 |
<--- [ 1] aeaspect version 2.3
| OK: 1/2
GET: 1
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] aeaspect 0.269 0.066 0.335 92.03
(others) 0.023 0.006 0.029 7.97
--------------------------------------------------------------------------
TOTAL 0.292 0.072 0.364 100.00
-> Fixing TNULL values.Reading ASCII configuration file /aps/subsys/proc/ae/lists/makefilter.config-> newmakefilter created ae803005010.mkf.
Time column is TIME ORDERED-> Contents of aeaspect.par
attitude,f,a,"ae803005010.att",,,"input attitude file" filelist,f,a,"ae803005010.mkf",,,"file name or @filelist to modify FITS keywords" leapfile,f,h,"CALDB",,,"location of leap-seconds file" xrs_teldef,f,h,"CALDB",,,"location of XRS teldef file" hxd_teldef,f,h,"CALDB",,,"location of HXD teldef file" xis0_teldef,f,h,"CALDB",,,"location of XIS0 teldef file" xis1_teldef,f,h,"CALDB",,,"location of XIS1 teldef file" xis2_teldef,f,h,"CALDB",,,"location of XIS2 teldef file" xis3_teldef,f,h,"CALDB",,,"location of XIS3 teldef file" sample_sec,r,h,60,0.0,,"sampling time in second (s)" offset_tolerance,r,h,2,0.0,,"offset angle tolerance (arcmin)" roll_tolerance,r,h,1,0.0,,"roll angle tolerance (degree)" num_split,i,h,4,0,,"number of splitting time intervals" adopt_median,b,h,yes,,,"adopt median instead of average" update_obs,b,h,yes,,,"update OBS_MODE/OBS_ID/OBS_REM/NOM_PNT keywords" update_obj,b,h,yes,,,"update OBJECT/RA_OBJ/DEC_OBJ keywords" update_nom,b,h,yes,,,"update RA_NOM/DEC_NOM/PA_NOM keywords" update_pnt,b,h,yes,,,"update RA_PNT/DEC_PNT keywords" update_ea,b,h,yes,,,"update MEAN_EA1/MEAN_EA2/MEAN_EA3 keywords" update_date,b,h,yes,,,"update DATE-OBS/DATE-END keywords" date_obs,s,h,"MNV_END",,,"value or keyword name for DATE-OBS" date_end,s,h,"MNV_NEXT",,,"value or keyword name for DATE-END" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aeaspect
aeaspect version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aeaspect version 2.3
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
aeaspect: *** show parameter ***
ATTITUDE 'ae803005010.att'
MOD_FILE_LIST 'ae803005010.mkf'
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB)
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits' (CALDB)
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/bcf/ae_hxd_teldef_20060810.fits' (CALDB)
XIS0_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
XIS1_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
XIS2_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi2_teldef_20080303.fits' (CALDB)
XIS3_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
SAMPLE_SEC 60.000 (s)
OFFSET_TOLERANCE 2.000000 (arcmin)
ROLL_TOLERANCE 1.000000 (degree)
ADOPT_MEDIAN YES
UPDATE_OBS YES
UPDATE_OBJ YES
UPDATE_NOM YES
UPDATE_PNT YES
UPDATE_EA YES
UPDATE_DATE YES
DATE_OBS 'MNV_END'
DATE_END 'MNV_NEXT'
aeaspect: date_obs='MNV_END ' found in attitude header, t=267335876.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=267533125.0
aste_aspect version 1.8
aspecting attitude: ae803005010.att
TELESCOP='SUZAKU', OBJECT='NGC 4382', (RA,DEC)=(186.3502, 18.1911)
using teldef file: /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits
TELESCOP='SUZAKU', INSTRUME='XRS'
attitude START STOP dT: 267302546.982805 267543885.950777 241338.967972
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-20 18:42:25 (54637.77946739)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-23 13:44:44 (54640.57274249)
aspecting START STOP dT: 267335876.000000 267533125.000000 197249.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-21 03:57:55 (54638.16521991)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-23 10:45:24 (54640.44819444)
averaging attitude in 60 sec sampling, 3288 points
Sample Time : 60.0 s Number of Accept / Sample : 3288 / 3288
TIME START STOP TELAPSE (s) : 267335876.0 267533125.0 197249.0
START DATE TIME in UTC (MJD): 2008-06-21 03:57:55 (54638.16521991)
STOP DATE TIME in UTC (MJD): 2008-06-23 10:45:24 (54640.44819444)
Mean [MEDIAN] Euler angles : 186.349158 71.814883 155.821291
RA DEC SUN ANGLE
Mean Sun position (deg) : 91.234932 23.440790
Mean aberration (arcsec) : 1.996271 6.521894
Mean satellite X-axis (deg) : 311.153030 60.078226 90.356593
Mean satellite Y-axis (deg) : 88.372883 22.900167 2.686101
Mean satellite Z-axis (deg) : 186.349158 18.185117 87.337709
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 186.349158 18.185117 294.178709
Average 186.349708 18.185221 294.178981
Minimum 186.343131 18.179448 294.170838
Maximum 186.420598 18.238881 294.242407 5.194726
Sigma (RMS) 0.005125 0.003338 0.004330 0.355641
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '803005010' / Observation identification string
OBSERVER= 'KYOKO MATSUSHITA' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'NGC 4382' / name of observed object
RA_OBJ = 186.3502 / planned target R.A.(deg)
DEC_OBJ = 18.1911 / planned target DEC.(deg)
RA_NOM = 186.3492 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 18.1851 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 294.1787 / nominal position angle from north to DETY(deg)
MEAN_EA1= 186.349157865585 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 71.814883272158 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 155.821291080941 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae803005010.att' / name of the satellite attitude file
DATE-OBS= '2008-06-21T03:57:55'/ start date of observations (UT)
DATE-END= '2008-06-23T10:45:24'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 186.3492 / average optical axis location R.A.(deg)
DEC_PNT = 18.1851 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 186.3743 / average optical axis location R.A.(deg)
DEC_PNT = 18.2383 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3407 / average optical axis location R.A.(deg)
DEC_PNT = 18.1647 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3536 / average optical axis location R.A.(deg)
DEC_PNT = 18.1709 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3492 / average optical axis location R.A.(deg)
DEC_PNT = 18.1954 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 186.3430 / average optical axis location R.A.(deg)
DEC_PNT = 18.1980 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae803005010.mkf'
+1: TELESCOP='ASTRO-E2', INSTRUME=''
Finished.
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 2
QUIT: 1 |
<--- [ 1] aeaspect version 2.3
| OK: 1/2
GET: 1
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] aeaspect 0.705 1.606 2.311 98.63
(others) 0.025 0.007 0.032 1.37
--------------------------------------------------------------------------
TOTAL 0.730 1.613 2.343 100.00
-> Generating filter file ae803005010xi0_0.filter.Reading ASCII configuration file ae803005010xi0_0.config-> newmakefilter created ae803005010xi0_0.filter.
Time column is TIME ORDERED-> Generating filter file ae803005010xi1_0.filter.
Reading ASCII configuration file ae803005010xi1_0.config-> newmakefilter created ae803005010xi1_0.filter.
Time column is TIME ORDERED-> Generating filter file ae803005010xi2_0.filter.
Reading ASCII configuration file ae803005010xi2_0.config-> newmakefilter created ae803005010xi2_0.filter.
Time column is TIME ORDERED-> Generating filter file ae803005010xi3_0.filter.
Reading ASCII configuration file ae803005010xi3_0.config-> newmakefilter created ae803005010xi3_0.filter.
Time column is TIME ORDERED
hk_dir,s,hl,"./",,,"HXD HK file directory ?" hk_file,s,hl,"ae803005010hxd_0.hk",,,"HXD HK file name ?" WPU,s,hl,"0123",,,"WPU board IDs ?" gti_fname,s,hl,"ae803005010hxd_0_tlm.gti",,,"HXD output GTI file name" fifo_full,b,h,yes,,,"Additionally exclude FIFO-full time between AE and DE ?" clobber,b,h,no,,,"Overwrite existing output file?" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdgtigen
hxdgtigen: hxdgtigen version 1.4 hxdgtigen: hk dir = ./ hxdgtigen: hk file = ae803005010hxd_0.hk hxdgtigen: WPU = 0123 hxdgtigen: fifo full = yes hxdgtigen: output gti = ae803005010hxd_0_tlm.gti BFSH colmun name: WPU0 HXD_W0TLMBFSH AE-DE FIFO-full time is additionally excluded from GTI: WPU0 BFSH colmun name: WPU1 HXD_W1TLMBFSH AE-DE FIFO-full time is additionally excluded from GTI: WPU1 BFSH colmun name: WPU2 HXD_W2TLMBFSH AE-DE FIFO-full time is additionally excluded from GTI: WPU2 BFSH colmun name: WPU3 HXD_W3TLMBFSH AE-DE FIFO-full time is additionally excluded from GTI: WPU3 hxdgtigen: process done.-> hxdgtigen created ae803005010hxd_0_tlm.gti
read_iomode,s,h,"create",,,"HXD event fits input I/O mode : overwrite or create ?" time_change,b,h,y,,,"HXD event fits update TIME : yes or no ?" grade_change,b,h,n,,,"HXD event fits update GRADE : yes or no ?" pi_pmt_change,b,h,n,,,"HXD event fits update PI_FAST PI_SLOW : yes or no ?" pi_pin_change,b,h,n,,,"HXD event fits update PI_PIN0 PI_PIN1 PI_PIN2 PI_PIN3: yes or no ?" gtimode,b,h,y,,,"HXD event fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?" create_name,f,a,"hxdtime.out",,,"HXD event fits created file name ?" input_name,fr,a,"ae803005010hxd_1_wel.fff",,,"HXD event fits file name ?" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" leapfile,f,a,"CALDB",,,"leapsec file name" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" time_convert_mode,i,h,4,,,"HxdTime2aetime mode ?" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdtime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDfwelTime version 2.0.0
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDfwelTimeFITS version 0.3.8
[ 5] HXDfwelTime version 2.0.0
[ 6] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae803005010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
Event... 500001 (500000)
Event... 600001 (600000)
Event... 700001 (700000)
Event... 800001 (800000)
Event... 900001 (900000)
Event... 1000001 (1000000)
Event... 1100001 (1100000)
Event... 1200001 (1200000)
Event... 1300001 (1300000)
Event... 1400001 (1400000)
Event... 1500001 (1500000)
Event... 1600001 (1600000)
Event... 1700001 (1700000)
Event... 1800001 (1800000)
Event... 1900001 (1900000)
Event... 2000001 (2000000)
Event... 2100001 (2100000)
Event... 2200001 (2200000)
Event... 2300001 (2300000)
Event... 2400001 (2400000)
Event... 2500001 (2500000)
Event... 2600001 (2600000)
Event... 2700001 (2700000)
Event... 2800001 (2800000)
Event... 2900001 (2900000)
Event... 3000001 (3000000)
Event... 3100001 (3100000)
Event... 3200001 (3200000)
Event... 3300001 (3300000)
Event... 3400001 (3400000)
Event... 3500001 (3500000)
Event... 3600001 (3600000)
Event... 3700001 (3700000)
Event... 3800001 (3800000)
Event... 3900001 (3900000)
Event... 4000001 (4000000)
Event... 4100001 (4100000)
Event... 4200001 (4200000)
Event... 4300001 (4300000)
Event... 4400001 (4400000)
Event... 4500001 (4500000)
Event... 4600001 (4600000)
Event... 4700001 (4700000)
Event... 4800001 (4800000)
Event... 4900001 (4900000)
Event... 5000001 (5000000)
Event... 5100001 (5100000)
Event... 5200001 (5200000)
Event... 5300001 (5300000)
Event... 5400001 (5400000)
Event... 5500001 (5500000)
Event... 5600001 (5600000)
Event... 5700001 (5700000)
Event... 5800001 (5800000)
Event... 5900001 (5900000)
Event... 6000001 (6000000)
Event... 6100001 (6100000)
Event... 6200001 (6200000)
Event... 6300001 (6300000)
Event... 6400001 (6400000)
Event... 6500001 (6500000)
Event... 6600001 (6600000)
Event... 6700001 (6700000)
Event... 6800001 (6800000)
Event... 6900001 (6900000)
Event... 7000001 (7000000)
Event... 7100001 (7100000)
Event... 7200001 (7200000)
Event... 7300001 (7300000)
Event... 7400001 (7400000)
Event... 7500001 (7500000)
Event... 7600001 (7600000)
Event... 7700001 (7700000)
Event... 7800001 (7800000)
Event... 7900001 (7900000)
Event... 8000001 (8000000)
Event... 8100001 (8100000)
Event... 8200001 (8200000)
Event... 8300001 (8300000)
Event... 8400001 (8400000)
Event... 8500001 (8500000)
Event... 8600001 (8600000)
Event... 8700001 (8700000)
Event... 8800001 (8800000)
Event... 8900001 (8900000)
Event... 9000001 (9000000)
Event... 9100001 (9100000)
Event... 9200001 (9200000)
Event... 9300001 (9300000)
Event... 9400001 (9400000)
Event... 9500001 (9500000)
Event... 9600001 (9600000)
Event... 9700001 (9700000)
Event... 9800001 (9800000)
Event... 9900001 (9900000)
Event... 10000001 (10000000)
Event... 10100001 (10100000)
Event... 10200001 (10200000)
Event... 10300001 (10300000)
Event... 10400001 (10400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 10469673
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 10469672/10469673
[ 2] HXDleapsecInit version 2.0.1
| OK: 10469672/10469672
[ 3] HXDgethkInit version 0.1.0
| OK: 10469672/10469672
[ 4] HXDfwelTimeFITS version 0.3.8
| OK: 10469672/10469672
[ 5] HXDfwelTime version 2.0.0
| OK: 10469672/10469672
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 10469672/10469672
GET: 10469672
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 80/5000
buffer size : 120000
buffer used : 10912
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 6 1 3 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 11 1 3 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 3 SINGLE
HXD:ftools:hxdtime_yn 4 4 2 4 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 3 SINGLE
HXD:PIL:tim_filename 256 15 1 3 SINGLE
HXD:PIL:time_convert_mode 4 4 1 3 SINGLE
HXDeventFitsRead:IROW 4 4 10469672 0 SINGLE
HXD:WEL:EV_TIME 8 8 20939344 10469672 SINGLE
HXD:WEL:MTI 4 4 20939344 10469672 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 10469672 10469672 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_RESERV 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 10469672 10469672 SINGLE
HXD:WEL:DET_TYPE 4 4 10469672 10469672 SINGLE
HXD:WEL:PI_FAST 4 4 10469672 10469672 SINGLE
HXD:WEL:PI_SLOW 4 4 10469672 10469672 SINGLE
HXD:WEL:PI_PIN 16 16 10469672 10469672 SINGLE
HXD:WEL:UPI_FAST 8 8 10469672 10469672 SINGLE
HXD:WEL:UPI_SLOW 8 8 10469672 10469672 SINGLE
HXD:WEL:UPI_PIN 32 32 10469672 10469672 SINGLE
HXD:WEL:PIN_ID 4 4 10469672 10469672 SINGLE
HXD:WEL:UNITID 4 4 10469672 20937991 SINGLE
HXD:WEL:LENGTH_CHK 4 4 10469672 10469672 SINGLE
HXD:WEL:WELTIME 4 4 10469672 20937991 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 10469672 10469672 SINGLE
HXD:WEL:TRIG 4 4 10469672 10469672 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 10469672 10469672 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 10469672 10469672 SINGLE
HXD:WEL:PHA_FAST 4 4 10469672 10469672 SINGLE
HXD:WEL:PHA_SLOW 4 4 10469672 10469672 SINGLE
HXD:WEL:PHA_PIN 16 16 10469672 10469672 SINGLE
HXD:WEL:PACKET_AETIME 8 8 10469672 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 10469672 31406310 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 10469672 20937991 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 1 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 12 1 1 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 2 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 4 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDeventFitsRead:NROW 4 4 1 1 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 2 SINGLE
HXDeventFitsRead:TSTART 8 8 1 0 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 10492727 31409016 SINGLE
HXD:WEL:EVENT 204 204 20937991 10468319 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 3 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 3 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXDfwelTime:HXD_SYS_LATCH_TI 4 4 10851 10851 SINGLE
HXDfwelTime:HXD_AE_TM_LATCH_TM 4 4 10851 10851 SINGLE
HXDfwelTime:HXD_WPU_CLK_RATE 4 4 10851 10468320 SINGLE
HXDfwelTime:HXD_SYS_TIME 8 8 10851 0 SINGLE
HXDfwelTime:HXD_HK_TIME 8 8 10851 0 SINGLE
HXDfwelTime:PWH 64 0 0 0 SINGLE
HXDfwelTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfwelTime:TIME_INVALID 4 4 10469672 0 SINGLE
HXDfwelTime:EV_TIME_TLM 8 8 10469672 0 SINGLE
HXDfwelTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 242.054 11.882 253.937 40.10
[ 2] HXDleapsecInit 2.893 6.370 9.263 1.46
[ 3] HXDgethkInit 2.325 5.760 8.085 1.28
[ 4] HXDfwelTimeFITS 4.915 5.430 10.345 1.63
[ 5] HXDfwelTime 47.291 5.643 52.934 8.36
[ 6] HXD2ndeventFitsWrite 232.409 66.292 298.700 47.17
(others) 0.014 0.013 0.027 0.00
--------------------------------------------------------------------------
TOTAL 531.900 101.391 633.291 100.00
-> hxdtime successful for ae803005010hxd_1_wel.sff.input_name,f,a,"ae803005010hxd_1_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae803005010hxd_0.hk",,,"HK file name" gso_gd_fitlog_name,f,a,"gso_gd_ghf.tbl",,,"HXD gso Gd fitlog file name" gso_511_fitlog_name,f,a,"gso_511_ghf.tbl",,,"HXD gso 511keV fitlog file name" gso_152gd_fitlog_name,f,a,"gso_152gd_ghf.tbl",,,"HXD gso 152Gd fitlog file name" process_id,s,a,"ae803005010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" exposure,r,h,1000000,,,"Fitting Exposure(seconds)" fit_start_gd_s,r,h,40,,,"Start Channel of PHA_SLOW in fitting intrinsic Gd line" fit_end_gd_s,r,h,125,,,"End Channel of PHA_SLOW in fitting intrinsic Gd line" fit_start_gd_f,r,h,40,,,"Start Channel of PHA_FAST in fitting intrinsic Gd line" fit_end_gd_f,r,h,125,,,"End Channel of PHA_FAST in fitting intrinsic Gd line" fit_start_511_s,r,h,100,,,"Start Channel of PHA_SLOW in fitting 511 keV line" fit_end_511_s,r,h,200,,,"End Channel of PHA_SLOW in fitting 511 keV line" fit_start_511_f,r,h,100,,,"Start Channel of PHA_FAST in fitting 511 keV line" fit_end_511_f,r,h,200,,,"End Channel of PHA_FAST in fitting 511 keV line" fit_start_152gd_s,r,h,40,,,"Start Channel of PHA_SLOW in fitting 152Gd line" fit_end_152gd_s,r,h,125,,,"End Channel of PHA_SLOW in fitting 152Gd line" fit_start_152gd_f,r,h,40,,,"Start Channel of PHA_FAST in fitting 152Gd line" fit_end_152gd_f,r,h,125,,,"End Channel of PHA_FAST in fitting 152Gd line" hv_w0_volt_min,r,h,700,,,"HV minmum voltage of WPU0 to make GTI" hv_w1_volt_min,r,h,700,,,"HV minmum voltage of WPU1 to make GTI" hv_w2_volt_min,r,h,700,,,"HV minmum voltage of WPU2 to make GTI" hv_w3_volt_min,r,h,700,,,"HV minmum voltage of WPU3 to make GTI" save_tmpfiles,b,h,no,,,"save temporal files (yes/no)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_gso
FFF = ae803005010hxd_1_wel.sff, HK = ae803005010hxd_0.hk
rm -rf ae803005010_hxdmkgainhist_tmp; mkdir ae803005010_hxdmkgainhist_tmp
maketime infile="ae803005010hxd_0.hk+1" outfile="ae803005010_hxdmkgainhist_tmp/total.gti" expr="(HXD_HV_W0_CAL >= 700) && (HXD_HV_W1_CAL >= 700) && (HXD_HV_W2_CAL >= 700) && (HXD_HV_W3_CAL >= 700)" name=anything value=anything time=TIME compact=no prefr=0.5 postfr=0.5
original GTI = ae803005010_hxdmkgainhist_tmp/total.gti
fdump infile="ae803005010_hxdmkgainhist_tmp/total.gti" outfile="ae803005010_hxdmkgainhist_tmp/fdump.log" columns='START,STOP' rows=- prhead=no pagewidth=100 showrow=no
fdump log = ae803005010_hxdmkgainhist_tmp/fdump.log
GTI LIST = ae803005010_hxdmkgainhist_tmp/gtilist
Exposure = 1000000
Making Non-selection fits file now.
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff" expr="(UNITID=="0")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff" expr="(UNITID=="1")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff" expr="(UNITID=="2")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff" expr="(UNITID=="3")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff" expr="(UNITID=="4")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff" expr="(UNITID=="5")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff" expr="(UNITID=="6")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff" expr="(UNITID=="7")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff" expr="(UNITID=="8")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff" expr="(UNITID=="9")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff" expr="(UNITID=="10")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff" expr="(UNITID=="11")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff" expr="(UNITID=="12")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff" expr="(UNITID=="13")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff" expr="(UNITID=="14")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff" expr="(UNITID=="15")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
Making Hit Pattern 8 fits file now.
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff" expr="(UNITID==0) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0111000000000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b11100000000000000011) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff" expr="(UNITID==1) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1011100100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b01110000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff" expr="(UNITID==2) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1101100110001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff" expr="(UNITID==3) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1110000000001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000111) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff" expr="(UNITID==4) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110011100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00111000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff" expr="(UNITID==5) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000101100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00011111000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff" expr="(UNITID==6) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000110111000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000011100000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff" expr="(UNITID==7) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110111011000100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff" expr="(UNITID==8) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0010001101110110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff" expr="(UNITID==9) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000001110110000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000001110000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff" expr="(UNITID==10) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011010000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000111110000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff" expr="(UNITID==11) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011100110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000111000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff" expr="(UNITID==12) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000000000111) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000001110) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff" expr="(UNITID==13) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000110011011) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff" expr="(UNITID==14) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000010011101) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000011100000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_1_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff" expr="(UNITID==15) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000000001110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000001111100) == (b00000000000000000000)))"
EVENT SELECTION
genrsp inrfil="none" rmffil="ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp" resol_reln="constant" resol_file="none" fwhm=0 disperse=no tlscpe="SUZAKU" instrm="HXD" resp_reln="linear" resp_file="none" resp_low=-0.5 resp_high=255.5 resp_number=256 resp_break=-1.0 resp_bnumber=0 chan_reln="linear" chan_low=-0.5 chan_high=255.5 chan_number=256 chan_break=-1.0 chan_bnumber=0 efffil="none" detfil="none" filfil="none" max_elements=100000 rsp_min=1.e-6 clobber=yes mode=ql
GENRSP vers 2.01 07/12/06.
... 256 channels in spectrum
... 256 energies in response
100 1 9.90000E+01 9.90000E+01 0.00000E+00 1.00000E+00
200 1 1.99000E+02 1.99000E+02 0.00000E+00 1.00000E+00
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
480436 479859 0 577 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
480436 479859 0 577 0 0 0
in 82278. seconds
Spectrum has 479859 counts for 5.832 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
480436 479859 0 577 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
480436 479859 0 577 0 0 0
in 82278. seconds
Spectrum has 479859 counts for 5.832 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
201187 200931 0 256 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
201187 200931 0 256 0 0 0
in 82278. seconds
Spectrum has 200931 counts for 2.442 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
201187 200931 0 256 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
201187 200931 0 256 0 0 0
in 82278. seconds
Spectrum has 200931 counts for 2.442 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
492771 492209 0 562 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
492771 492209 0 562 0 0 0
in 82278. seconds
Spectrum has 492209 counts for 5.982 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
492771 492209 0 562 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
492771 492209 0 562 0 0 0
in 82278. seconds
Spectrum has 492209 counts for 5.982 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
222690 222431 0 259 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
222690 222431 0 259 0 0 0
in 82278. seconds
Spectrum has 222431 counts for 2.703 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
222690 222431 0 259 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
222690 222431 0 259 0 0 0
in 82278. seconds
Spectrum has 222431 counts for 2.703 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
609485 608973 0 512 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
609485 608973 0 512 0 0 0
in 82278. seconds
Spectrum has 608973 counts for 7.401 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
609485 608973 0 512 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
609485 608973 0 512 0 0 0
in 82278. seconds
Spectrum has 608973 counts for 7.401 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
270727 270496 0 231 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
270727 270496 0 231 0 0 0
in 82278. seconds
Spectrum has 270496 counts for 3.288 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
270727 270496 0 231 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
270727 270496 0 231 0 0 0
in 82278. seconds
Spectrum has 270496 counts for 3.288 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
484138 483603 0 535 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
484138 483603 0 535 0 0 0
in 82278. seconds
Spectrum has 483603 counts for 5.878 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
484138 483603 0 535 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
484138 483603 0 535 0 0 0
in 82278. seconds
Spectrum has 483603 counts for 5.878 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
205161 204917 0 244 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
205161 204917 0 244 0 0 0
in 82278. seconds
Spectrum has 204917 counts for 2.491 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
205161 204917 0 244 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
205161 204917 0 244 0 0 0
in 82278. seconds
Spectrum has 204917 counts for 2.491 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
468507 467970 0 537 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
468507 467970 0 537 0 0 0
in 82278. seconds
Spectrum has 467970 counts for 5.688 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
468507 467970 0 537 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
468507 467970 0 537 0 0 0
in 82278. seconds
Spectrum has 467970 counts for 5.688 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
194368 194130 0 238 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
194368 194130 0 238 0 0 0
in 82278. seconds
Spectrum has 194130 counts for 2.359 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
194368 194130 0 238 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
194368 194130 0 238 0 0 0
in 82278. seconds
Spectrum has 194130 counts for 2.359 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
465649 465126 0 523 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
465649 465126 0 523 0 0 0
in 82278. seconds
Spectrum has 465126 counts for 5.653 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
465649 465126 0 523 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
465649 465126 0 523 0 0 0
in 82278. seconds
Spectrum has 465126 counts for 5.653 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
198182 197939 0 243 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
198182 197939 0 243 0 0 0
in 82278. seconds
Spectrum has 197939 counts for 2.406 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
198182 197939 0 243 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
198182 197939 0 243 0 0 0
in 82278. seconds
Spectrum has 197939 counts for 2.406 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
465758 465215 0 543 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
465758 465215 0 543 0 0 0
in 82278. seconds
Spectrum has 465215 counts for 5.654 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
465758 465215 0 543 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
465758 465215 0 543 0 0 0
in 82278. seconds
Spectrum has 465215 counts for 5.654 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
197930 197696 0 234 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
197930 197696 0 234 0 0 0
in 82278. seconds
Spectrum has 197696 counts for 2.403 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
197930 197696 0 234 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
197930 197696 0 234 0 0 0
in 82278. seconds
Spectrum has 197696 counts for 2.403 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
737121 736528 0 593 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
737121 736528 0 593 0 0 0
in 82278. seconds
Spectrum has 736528 counts for 8.952 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
737121 736528 0 593 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
737121 736528 0 593 0 0 0
in 82278. seconds
Spectrum has 736528 counts for 8.952 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
300515 300270 0 245 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
300515 300270 0 245 0 0 0
in 82278. seconds
Spectrum has 300270 counts for 3.649 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
300515 300270 0 245 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
300515 300270 0 245 0 0 0
in 82278. seconds
Spectrum has 300270 counts for 3.649 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
662952 662372 0 580 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
662952 662372 0 580 0 0 0
in 82278. seconds
Spectrum has 662372 counts for 8.050 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
662952 662372 0 580 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
662952 662372 0 580 0 0 0
in 82278. seconds
Spectrum has 662372 counts for 8.050 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
280634 280387 0 247 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
280634 280387 0 247 0 0 0
in 82278. seconds
Spectrum has 280387 counts for 3.408 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
280634 280387 0 247 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
280634 280387 0 247 0 0 0
in 82278. seconds
Spectrum has 280387 counts for 3.408 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
452125 451608 0 517 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
452125 451608 0 517 0 0 0
in 82278. seconds
Spectrum has 451608 counts for 5.489 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
452125 451608 0 517 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
452125 451608 0 517 0 0 0
in 82278. seconds
Spectrum has 451608 counts for 5.489 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
196445 196228 0 217 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
196445 196228 0 217 0 0 0
in 82278. seconds
Spectrum has 196228 counts for 2.385 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
196445 196228 0 217 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
196445 196228 0 217 0 0 0
in 82278. seconds
Spectrum has 196228 counts for 2.385 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
480344 479798 0 546 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
480344 479798 0 546 0 0 0
in 82278. seconds
Spectrum has 479798 counts for 5.831 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
480344 479798 0 546 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
480344 479798 0 546 0 0 0
in 82278. seconds
Spectrum has 479798 counts for 5.831 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
202090 201871 0 219 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
202090 201871 0 219 0 0 0
in 82278. seconds
Spectrum has 201871 counts for 2.454 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
202090 201871 0 219 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
202090 201871 0 219 0 0 0
in 82278. seconds
Spectrum has 201871 counts for 2.454 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
563796 563189 0 607 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
563796 563189 0 607 0 0 0
in 82278. seconds
Spectrum has 563189 counts for 6.845 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
563796 563189 0 607 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
563796 563189 0 607 0 0 0
in 82278. seconds
Spectrum has 563189 counts for 6.845 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
230232 229982 0 250 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
230232 229982 0 250 0 0 0
in 82278. seconds
Spectrum has 229982 counts for 2.795 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
230232 229982 0 250 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
230232 229982 0 250 0 0 0
in 82278. seconds
Spectrum has 229982 counts for 2.795 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
481764 481237 0 527 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
481764 481237 0 527 0 0 0
in 82278. seconds
Spectrum has 481237 counts for 5.849 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
481764 481237 0 527 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
481764 481237 0 527 0 0 0
in 82278. seconds
Spectrum has 481237 counts for 5.849 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
202433 202200 0 233 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
202433 202200 0 233 0 0 0
in 82278. seconds
Spectrum has 202200 counts for 2.458 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
202433 202200 0 233 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
202433 202200 0 233 0 0 0
in 82278. seconds
Spectrum has 202200 counts for 2.458 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
617992 617450 0 542 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
617992 617450 0 542 0 0 0
in 82278. seconds
Spectrum has 617450 counts for 7.504 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
617992 617450 0 542 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
617992 617450 0 542 0 0 0
in 82278. seconds
Spectrum has 617450 counts for 7.504 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
270862 270629 0 233 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
270862 270629 0 233 0 0 0
in 82278. seconds
Spectrum has 270629 counts for 3.289 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
270862 270629 0 233 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
270862 270629 0 233 0 0 0
in 82278. seconds
Spectrum has 270629 counts for 3.289 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
500011 499494 0 517 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
500011 499494 0 517 0 0 0
in 82278. seconds
Spectrum has 499494 counts for 6.071 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
500011 499494 0 517 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
500011 499494 0 517 0 0 0
in 82278. seconds
Spectrum has 499494 counts for 6.071 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
205526 205298 0 228 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
205526 205298 0 228 0 0 0
in 82278. seconds
Spectrum has 205298 counts for 2.495 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
205526 205298 0 228 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
205526 205298 0 228 0 0 0
in 82278. seconds
Spectrum has 205298 counts for 2.495 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
472148 471596 0 552 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
472148 471596 0 552 0 0 0
in 82278. seconds
Spectrum has 471596 counts for 5.732 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
472148 471596 0 552 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
472148 471596 0 552 0 0 0
in 82278. seconds
Spectrum has 471596 counts for 5.732 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
200215 199965 0 250 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
200215 199965 0 250 0 0 0
in 82278. seconds
Spectrum has 199965 counts for 2.430 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
200215 199965 0 250 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
200215 199965 0 250 0 0 0
in 82278. seconds
Spectrum has 199965 counts for 2.430 counts/sec
... written the PHA data Extension
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:05 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.442 +/- 5.4480E-03
Net count rate (cts/s) for file 2 2.442 +/- 5.4480E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 785261.3 using 168 PHA bins.
Reduced chi-squared = 4907.883 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18183.82 using 168 PHA bins.
Reduced chi-squared = 113.6489 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8537.93 -3 82.09 16.09 0.1536 1.056
0.6138 82.60 15.78 1.046
2332.39 -4 73.11 7.172 8.2397E-02 0.8812
0.4641 74.73 7.810 0.8891
2014.15 -3 75.78 14.34 0.1393 1.000
0.6355 77.56 17.02 0.9987
963.531 0 75.75 10.21 0.1518 0.9970
0.6430 76.33 8.647 0.9972
749.146 -1 76.04 9.909 0.1458 0.9962
0.6580 77.02 11.50 0.9972
680.356 -2 76.20 9.363 0.1421 1.016
0.7165 77.57 9.979 1.017
660.820 -2 76.17 9.681 0.1468 1.033
0.7650 77.59 10.94 1.033
657.225 -3 76.47 9.575 0.1465 1.077
0.9086 77.93 10.20 1.077
612.943 -4 76.51 9.744 0.1496 1.093
0.9854 77.95 10.52 1.094
609.708 -5 76.55 9.682 0.1489 1.093
0.9922 77.98 10.40 1.094
609.682 -6 76.53 9.717 0.1493 1.093
0.9921 77.97 10.44 1.095
609.676 -7 76.54 9.701 0.1491 1.093
0.9922 77.97 10.43 1.095
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.10E-07 | 0.00 0.00 -0.38 0.63 -0.30 0.00 0.00 0.60
1.03E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.02E-06 | 0.00 0.01 -0.92 -0.25 0.13 0.00 0.04 -0.26
1.16E-03 | 0.02 -0.05 0.03 -0.06 -0.26 0.03 0.96 -0.05
1.64E-03 | -0.04 -0.04 0.02 0.23 0.91 -0.04 0.27 0.22
4.12E-02 | 0.73 0.67 0.01 0.01 0.05 -0.04 0.04 0.01
5.97E-02 | 0.42 -0.41 0.00 0.01 0.04 0.81 -0.04 0.01
4.83E-02 | 0.53 -0.61 0.00 -0.01 -0.02 -0.59 -0.03 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.5400 +/- 0.215355 1
2 2 1 gaussian Sigma keV 9.70088 +/- 0.216326 1
3 3 1 gaussian norm 0.149135 +/- 0.308065E-02 1
4 4 2 powerlaw PhoIndex 1.09314 +/- 0.102016E-01 1
5 5 2 powerlaw norm 0.992174 +/- 0.403263E-01 1
6 6 3 gaussian LineE keV 77.9709 +/- 0.235803 2
7 7 3 gaussian Sigma keV 10.4251 +/- 0.371579E-01 2
8 3 3 gaussian norm 0.149135 = par 3 2
9 8 4 powerlaw PhoIndex 1.09457 +/- 0.980111E-02 2
10 5 4 powerlaw norm 0.992174 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 609.6759 using 168 PHA bins.
Reduced chi-squared = 3.810474 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.651) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.651) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9023 photons ( 1.0680E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8977 photons ( 1.0659E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:05 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.832 +/- 8.4192E-03
Net count rate (cts/s) for file 2 5.832 +/- 8.4192E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.390 +/- 1.0028E-02( 58.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.390 +/- 1.0028E-02( 58.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.3393909E+07 using 198 PHA bins.
Reduced chi-squared = 70494.26 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 94327.78 using 198 PHA bins.
Reduced chi-squared = 496.4620 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
52286.9 -3 116.7 19.02 0.3613 2.835
0.1390 108.7 19.02 2.769
24896.4 -2 106.3 19.27 1.296 9.023
6.1385E-02 111.1 19.26 7.947
23119.5 -1 108.4 19.36 1.265 9.488
2.3062E-02 111.1 19.33 9.386
22409.2 -1 109.7 19.36 1.259 9.496
6.6838E-03 111.2 19.36 9.450
22315.1 -1 110.4 19.37 1.263 9.498
3.2453E-03 111.2 19.37 9.493
21964.0 -1 110.9 19.37 1.256 9.500
7.2360E-04 111.4 19.37 9.497
21572.0 -1 111.3 19.37 1.246 9.500
3.2812E-04 111.6 19.37 9.499
21411.0 -1 111.5 19.37 1.243 9.500
1.1612E-04 111.7 19.37 9.500
21238.5 -1 111.7 19.37 1.239 9.500
6.4482E-06 111.8 19.37 9.500
21058.1 -1 111.9 19.37 1.235 9.500
2.9411E-06 111.9 19.37 9.500
20788.2 -1 112.1 19.37 1.227 9.500
1.1372E-06 112.1 19.37 9.500
20536.7 -1 112.3 19.37 1.221 9.500
9.8051E-08 112.4 19.37 9.500
20177.4 -1 112.6 19.37 1.209 9.500
1.1073E-08 112.5 19.37 9.500
19884.6 -1 112.9 19.37 1.200 9.500
4.7988E-09 112.7 19.37 9.500
19848.2 -1 113.0 19.37 1.200 9.500
1.5874E-09 112.7 19.37 9.500
19817.3 -1 113.1 19.37 1.200 9.500
7.8597E-10 112.8 19.37 9.500
19644.3 -1 113.2 19.37 1.194 9.500
3.9038E-10 112.9 19.37 9.500
19561.8 -1 113.3 19.37 1.191 9.500
1.9011E-10 112.9 19.37 9.500
18347.0 0 114.0 19.37 1.139 9.500
5.8855E-11 113.6 19.37 9.500
17624.6 0 114.8 19.37 1.105 9.500
2.6139E-11 114.2 19.37 9.500
17166.2 0 115.6 19.37 1.081 9.500
9.3992E-12 114.7 19.37 9.500
16868.0 0 116.2 19.37 1.064 9.500
8.2957E-13 115.2 19.37 9.500
16682.6 0 116.7 19.37 1.050 9.500
2.8259E-13 115.5 19.37 9.500
Fit parameter 5 has pegged
16467.4 0 117.3 19.37 1.027 9.500
0.000 115.8 19.32 9.500
Fit parameter 5 has pegged
16415.0 0 117.5 19.37 1.020 9.500
0.000 115.8 19.30 9.500
Fit parameter 5 has pegged
16380.6 0 117.6 19.37 1.015 9.500
0.000 115.9 19.26 9.500
Fit parameter 5 has pegged
16357.2 0 117.8 19.37 1.011 9.500
0.000 116.0 19.25 9.500
Fit parameter 5 has pegged
16339.5 0 117.9 19.37 1.008 9.500
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16326.6 0 117.9 19.37 1.006 9.500
0.000 116.1 19.19 9.500
Fit parameter 5 has pegged
16317.9 0 118.0 19.37 1.004 9.500
0.000 116.1 19.16 9.500
Fit parameter 5 has pegged
16310.9 0 118.0 19.37 1.003 9.500
0.000 116.2 19.15 9.500
Fit parameter 5 has pegged
16306.0 0 118.1 19.37 1.002 9.500
0.000 116.2 19.13 9.500
Fit parameter 5 has pegged
16302.1 0 118.1 19.37 1.001 9.500
0.000 116.3 19.12 9.500
Fit parameter 5 has pegged
16298.0 0 118.1 19.37 1.000 9.500
0.000 116.3 19.11 9.500
Fit parameter 5 has pegged
16295.4 0 118.1 19.37 0.9998 9.500
0.000 116.3 19.10 9.500
Fit parameter 5 has pegged
16294.4 0 118.1 19.37 0.9996 9.500
0.000 116.3 19.10 9.500
Fit parameter 5 has pegged
16291.9 0 118.2 19.37 0.9990 9.500
0.000 116.4 19.09 9.500
Fit parameter 5 has pegged
16291.2 0 118.2 19.37 0.9988 9.500
0.000 116.4 19.09 9.500
Fit parameter 5 has pegged
16289.9 0 118.2 19.37 0.9985 9.500
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16288.3 0 118.2 19.37 0.9981 9.500
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16287.7 0 118.2 19.37 0.9980 9.500
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16286.1 0 118.2 19.37 0.9976 9.500
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16285.4 0 118.2 19.37 0.9975 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16285.3 0 118.2 19.37 0.9974 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16284.9 0 118.2 19.37 0.9973 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16280.1 0 118.3 19.37 0.9965 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16275.8 0 118.3 19.37 0.9958 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16271.9 0 118.3 19.37 0.9951 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16268.3 0 118.4 19.37 0.9945 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16265.1 0 118.4 19.37 0.9938 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16262.2 0 118.5 19.37 0.9932 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16259.6 0 118.5 19.37 0.9927 9.500
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16257.1 0 118.5 19.37 0.9922 9.500
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16255.1 0 118.6 19.37 0.9916 9.500
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16253.2 0 118.6 19.37 0.9912 9.500
0.000 116.5 19.06 9.500
Fit parameter 5 has pegged
16251.4 0 118.6 19.37 0.9907 9.500
0.000 116.5 19.06 9.500
Fit parameter 5 has pegged
16249.7 0 118.6 19.37 0.9903 9.500
0.000 116.5 19.06 9.500
Fit parameter 5 has pegged
16248.2 0 118.7 19.37 0.9898 9.500
0.000 116.5 19.06 9.500
Fit parameter 5 has pegged
16246.7 0 118.7 19.37 0.9894 9.500
0.000 116.5 19.05 9.500
Fit parameter 5 has pegged
16245.6 0 118.7 19.37 0.9891 9.500
0.000 116.5 19.05 9.500
Fit parameter 5 has pegged
16244.4 0 118.7 19.37 0.9887 9.500
0.000 116.5 19.05 9.500
Fit parameter 5 has pegged
16243.3 0 118.7 19.37 0.9883 9.500
0.000 116.5 19.05 9.500
Fit parameter 5 has pegged
16242.4 0 118.8 19.37 0.9880 9.500
0.000 116.5 19.04 9.500
Fit parameter 5 has pegged
16241.5 0 118.8 19.37 0.9877 9.500
0.000 116.5 19.04 9.500
Fit parameter 5 has pegged
16240.7 0 118.8 19.37 0.9874 9.500
0.000 116.5 19.04 9.500
Fit parameter 5 has pegged
16239.9 0 118.8 19.37 0.9871 9.500
0.000 116.5 19.04 9.500
Fit parameter 5 has pegged
16239.3 0 118.8 19.37 0.9868 9.500
0.000 116.5 19.04 9.500
Fit parameter 5 has pegged
16238.6 0 118.8 19.37 0.9865 9.500
0.000 116.5 19.03 9.500
Fit parameter 5 has pegged
16238.0 0 118.8 19.37 0.9863 9.500
0.000 116.5 19.03 9.500
Fit parameter 5 has pegged
16237.4 0 118.9 19.37 0.9860 9.500
0.000 116.5 19.03 9.500
Fit parameter 5 has pegged
16236.9 0 118.9 19.37 0.9858 9.500
0.000 116.5 19.03 9.500
Fit parameter 5 has pegged
16236.3 0 118.9 19.37 0.9855 9.500
0.000 116.5 19.03 9.500
Fit parameter 5 has pegged
16235.9 0 118.9 19.37 0.9853 9.500
0.000 116.5 19.02 9.500
Fit parameter 5 has pegged
16235.5 0 118.9 19.37 0.9851 9.500
0.000 116.6 19.02 9.500
Fit parameter 5 has pegged
16235.1 0 118.9 19.37 0.9849 9.500
0.000 116.6 19.02 9.500
Fit parameter 5 has pegged
16234.7 0 118.9 19.37 0.9847 9.500
0.000 116.6 19.02 9.500
Fit parameter 5 has pegged
16234.4 0 118.9 19.37 0.9845 9.500
0.000 116.6 19.02 9.500
Fit parameter 5 has pegged
16234.0 0 118.9 19.37 0.9843 9.500
0.000 116.6 19.01 9.500
Fit parameter 5 has pegged
16233.7 0 118.9 19.37 0.9842 9.500
0.000 116.6 19.01 9.500
Fit parameter 5 has pegged
16233.4 0 118.9 19.37 0.9840 9.500
0.000 116.6 19.01 9.500
Fit parameter 5 has pegged
16233.2 0 119.0 19.37 0.9838 9.500
0.000 116.6 19.01 9.500
Fit parameter 5 has pegged
16232.9 0 119.0 19.37 0.9837 9.500
0.000 116.6 19.01 9.500
Fit parameter 5 has pegged
16232.6 0 119.0 19.37 0.9835 9.500
0.000 116.6 19.00 9.500
Fit parameter 5 has pegged
16232.4 0 119.0 19.37 0.9834 9.500
0.000 116.6 19.00 9.500
Fit parameter 5 has pegged
16232.2 0 119.0 19.37 0.9832 9.500
0.000 116.6 19.00 9.500
Fit parameter 5 has pegged
16232.0 0 119.0 19.37 0.9831 9.500
0.000 116.6 19.00 9.500
Fit parameter 5 has pegged
16231.8 0 119.0 19.37 0.9830 9.500
0.000 116.6 19.00 9.500
Fit parameter 5 has pegged
16231.6 0 119.0 19.37 0.9828 9.500
0.000 116.6 19.00 9.500
Fit parameter 5 has pegged
16231.5 0 119.0 19.37 0.9827 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
16231.2 0 119.0 19.37 0.9826 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
16231.1 0 119.0 19.37 0.9825 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
16230.9 0 119.0 19.37 0.9824 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
16230.8 0 119.0 19.37 0.9823 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
16230.7 0 119.0 19.37 0.9821 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
16230.5 0 119.0 19.37 0.9821 9.500
0.000 116.6 18.98 9.500
Fit parameter 5 has pegged
16230.4 0 119.0 19.37 0.9820 9.500
0.000 116.7 18.98 9.500
Fit parameter 5 has pegged
16230.4 1 119.0 19.37 0.9819 9.500
0.000 116.7 18.98 9.500
16230.2 0 119.0 19.37 0.9818 9.500
0.000 116.7 18.99 9.500
Fit parameter 5 has pegged
16230.1 0 119.0 19.37 0.9817 9.500
0.000 116.7 18.98 9.500
Fit parameter 5 has pegged
16230.0 0 119.0 19.37 0.9816 9.500
0.000 116.7 18.98 9.500
Fit parameter 5 has pegged
16229.9 0 119.0 19.37 0.9815 9.500
0.000 116.7 18.98 9.500
Fit parameter 5 has pegged
16229.8 0 119.0 19.37 0.9815 9.500
0.000 116.7 18.98 9.500
Fit parameter 5 has pegged
16229.7 0 119.0 19.37 0.9814 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.6 1 119.0 19.37 0.9814 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.6 3 119.0 19.37 0.9814 9.500
0.000 116.7 18.97 9.500
16229.5 0 119.1 19.37 0.9813 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.5 0 119.1 19.37 0.9812 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.5 0 119.1 19.37 0.9811 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.4 0 119.1 19.37 0.9810 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.3 0 119.1 19.37 0.9810 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.3 2 119.1 19.37 0.9810 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.2 2 119.1 19.37 0.9810 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.2 1 119.1 19.37 0.9810 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
16229.2 4 119.1 19.37 0.9810 9.500
0.000 116.7 18.97 9.500
16229.2 5 119.1 19.37 0.9810 9.500
0.000 116.7 18.97 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.19E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.36E-02 | 0.27 0.01 0.01 -0.94 -0.21
1.73E-02 | -0.96 -0.06 0.01 -0.25 -0.09
2.32E+00 | -0.07 0.99 0.00 -0.03 0.08
2.67E-01 | -0.03 -0.09 0.00 -0.22 0.97
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 119.058 +/- 0.164617 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.51548 1
3 3 1 gaussian norm 0.980953 +/- 0.459776E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 116.697 +/- 0.167202 2
7 7 3 gaussian Sigma keV 18.9692 +/- 0.518352 2
8 3 3 gaussian norm 0.980953 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 16229.23 using 198 PHA bins.
Reduced chi-squared = 85.41700 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 82.382) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 82.382) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8214 photons ( 1.6417E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7951 photons ( 1.5674E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:06 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.442 +/- 5.4480E-03
Net count rate (cts/s) for file 2 2.442 +/- 5.4480E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 904068.6 using 168 PHA bins.
Reduced chi-squared = 5650.429 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 27133.12 using 168 PHA bins.
Reduced chi-squared = 169.5820 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
22734.6 -3 85.34 13.83 0.1195 1.151
0.7226 85.60 13.14 1.135
4216.16 -4 71.02 15.55 0.1647 1.027
0.8545 73.50 14.72 1.037
3796.75 -3 83.76 6.989 5.8724E-02 1.153
1.259 82.68 8.205 1.147
2522.04 -4 75.58 18.10 0.1280 1.117
1.123 75.84 17.40 1.120
1855.60 0 75.84 14.64 0.1307 1.117
1.122 76.21 15.76 1.120
650.850 0 77.14 9.766 0.1404 1.119
1.116 78.07 9.576 1.121
630.032 0 76.93 9.615 0.1428 1.119
1.115 78.13 9.919 1.120
628.192 0 76.82 9.585 0.1446 1.119
1.114 78.15 10.64 1.120
617.017 -1 76.67 9.752 0.1496 1.119
1.107 78.15 10.42 1.121
614.126 -2 76.64 9.767 0.1508 1.114
1.082 78.09 10.49 1.115
610.236 -3 76.58 9.717 0.1495 1.099
1.015 78.01 10.44 1.101
609.706 -4 76.54 9.710 0.1492 1.093
0.9933 77.97 10.43 1.095
609.676 -5 76.54 9.705 0.1492 1.093
0.9922 77.97 10.43 1.095
609.675 -6 76.54 9.706 0.1492 1.093
0.9922 77.97 10.43 1.095
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.10E-07 | 0.00 0.00 -0.38 0.63 -0.30 0.00 0.00 0.60
1.03E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.01E-06 | 0.00 0.01 -0.92 -0.25 0.13 0.00 0.04 -0.26
1.15E-03 | 0.02 -0.05 0.03 -0.06 -0.26 0.03 0.96 -0.05
1.64E-03 | -0.04 -0.04 0.02 0.23 0.91 -0.04 0.27 0.22
4.11E-02 | 0.73 0.68 0.01 0.01 0.05 -0.04 0.04 0.01
5.96E-02 | 0.42 -0.41 0.00 0.01 0.04 0.81 -0.04 0.01
4.82E-02 | 0.53 -0.61 0.00 -0.01 -0.01 -0.59 -0.03 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.5373 +/- 0.215148 1
2 2 1 gaussian Sigma keV 9.70628 +/- 0.216069 1
3 3 1 gaussian norm 0.149194 +/- 0.307639E-02 1
4 4 2 powerlaw PhoIndex 1.09315 +/- 0.101970E-01 1
5 5 2 powerlaw norm 0.992158 +/- 0.403100E-01 1
6 6 3 gaussian LineE keV 77.9697 +/- 0.235630 2
7 7 3 gaussian Sigma keV 10.4292 +/- 0.371162E-01 2
8 3 3 gaussian norm 0.149194 = par 3 2
9 8 4 powerlaw PhoIndex 1.09458 +/- 0.979672E-02 2
10 5 4 powerlaw norm 0.992158 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 609.6755 using 168 PHA bins.
Reduced chi-squared = 3.810472 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.651) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.651) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9023 photons ( 1.0680E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8977 photons ( 1.0659E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
113.6489
=====best line=====
76.5400 0.215355
=====best sigma=====
9.70088 0.216326
=====norm=====
0.149135 0.308065E-02
=====phoindx=====
1.09314 0.102016E-01
=====pow_norm=====
0.992174 0.403263E-01
=====best line=====
77.9709 0.235803
=====best sigma=====
10.4251 0.371579E-01
=====norm=====
0.149135 par
=====phoindx=====
1.09457 0.980111E-02
=====pow_norm=====
0.992174 par
=====redu_chi=====
3.810474
=====area_flux=====
0.9023
=====area_flux_f=====
0.8977
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 0 1 640 2000 1224.64 0 0.149135 0.308065E-02 9.70088 0.216326 1.09314 0.102016E-01 0.992174 0.403263E-01 0.9023 640 2000 1247.5344 0 0.149135 0.308065E-02 10.4251 0.371579E-01 1.09457 0.980111E-02 0.992174 0.403263E-01 0.8977 3.810474 1
=====redu_chi=====
496.4620
=====best line=====
119.058 0.164617
=====best sigma=====
19.3655 1.51548
=====norm=====
0.980953 0.459776E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.697 0.167202
=====best sigma=====
18.9692 0.518352
=====norm=====
0.980953 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
85.41700
=====area_flux=====
0.8214
=====area_flux_f=====
0.7951
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 0 1 1600 3200 1904.928 0 0.980953 0.459776E-02 309.848 24.24768 9.50000 -1.00000 0.00000 -1.00000 0.8214 1600 3200 1867.152 0 0.980953 0.459776E-02 303.5072 8.293632 9.50000 -1.00000 0.00000 -1.00000 0.7951 85.41700 1
=====redu_chi=====
169.5820
=====best line=====
76.5373 0.215148
=====best sigma=====
9.70628 0.216069
=====norm=====
0.149194 0.307639E-02
=====phoindx=====
1.09315 0.101970E-01
=====pow_norm=====
0.992158 0.403100E-01
=====best line=====
77.9697 0.235630
=====best sigma=====
10.4292 0.371162E-01
=====norm=====
0.149194 par
=====phoindx=====
1.09458 0.979672E-02
=====pow_norm=====
0.992158 par
=====redu_chi=====
3.810472
=====area_flux=====
0.9023
=====area_flux_f=====
0.8977
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 0 1 640 2000 1224.5968 0 0.149194 0.307639E-02 9.70628 0.216069 1.09315 0.101970E-01 0.992158 0.403100E-01 0.9023 640 2000 1247.5152 0 0.149194 0.307639E-02 10.4292 0.371162E-01 1.09458 0.979672E-02 0.992158 0.403100E-01 0.8977 3.810472 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:06 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.703 +/- 5.7321E-03
Net count rate (cts/s) for file 2 2.703 +/- 5.7321E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 711708.3 using 168 PHA bins.
Reduced chi-squared = 4448.177 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 14855.89 using 168 PHA bins.
Reduced chi-squared = 92.84934 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2496.67 -3 82.96 15.24 0.1337 0.8858
0.4328 83.83 14.36 0.8834
2348.93 -3 74.82 6.952 5.3016E-02 0.8333
0.3773 78.17 7.945 0.8353
1362.67 -1 79.03 11.05 0.1130 0.8438
0.3702 81.97 11.27 0.8453
880.755 -2 77.43 9.369 0.1125 0.8678
0.4063 79.32 9.533 0.8681
662.227 -2 78.19 8.314 0.1308 0.8946
0.4454 80.58 9.327 0.8951
612.749 -2 78.05 8.929 0.1347 0.9150
0.4840 80.47 9.402 0.9154
585.625 -2 78.14 8.760 0.1344 0.9303
0.5181 80.55 9.380 0.9310
568.996 -2 78.18 8.853 0.1356 0.9427
0.5464 80.61 9.429 0.9436
564.030 -3 78.33 8.913 0.1378 0.9782
0.6262 80.77 9.513 0.9781
543.434 -4 78.39 8.936 0.1387 0.9906
0.6672 80.82 9.530 0.9914
541.926 -5 78.39 8.934 0.1387 0.9906
0.6700 80.83 9.527 0.9920
541.924 -6 78.39 8.935 0.1387 0.9905
0.6700 80.83 9.527 0.9920
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.94E-07 | 0.00 0.00 -0.34 0.61 -0.42 0.00 0.00 0.58
9.67E-07 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
4.32E-06 | 0.00 0.01 -0.94 -0.20 0.17 0.00 0.01 -0.22
7.94E-04 | 0.03 0.02 -0.02 -0.33 -0.89 0.03 0.02 -0.32
2.96E-02 | -0.16 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
4.10E-02 | 0.96 -0.06 0.00 0.01 0.02 -0.20 0.21 0.01
6.14E-02 | -0.19 0.58 0.01 0.00 0.01 -0.32 0.73 0.00
4.67E-02 | 0.15 0.26 0.00 0.01 0.03 0.92 0.23 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 78.3944 +/- 0.203896 1
2 2 1 gaussian Sigma keV 8.93528 +/- 0.203467 1
3 3 1 gaussian norm 0.138685 +/- 0.281634E-02 1
4 4 2 powerlaw PhoIndex 0.990547 +/- 0.997028E-02 1
5 5 2 powerlaw norm 0.670042 +/- 0.265640E-01 1
6 6 3 gaussian LineE keV 80.8271 +/- 0.218528 2
7 7 3 gaussian Sigma keV 9.52742 +/- 0.218805 2
8 3 3 gaussian norm 0.138685 = par 3 2
9 8 4 powerlaw PhoIndex 0.991957 +/- 0.958271E-02 2
10 5 4 powerlaw norm 0.670042 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 541.9236 using 168 PHA bins.
Reduced chi-squared = 3.387023 for 160 degrees of freedom
Null hypothesis probability = 5.241E-43
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.245) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.245) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9251 photons ( 1.1083E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9204 photons ( 1.1080E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:06 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.982 +/- 8.5269E-03
Net count rate (cts/s) for file 2 5.982 +/- 8.5269E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.279 +/- 1.0274E-02( 54.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.279 +/- 1.0274E-02( 54.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.1957157E+07 using 198 PHA bins.
Reduced chi-squared = 62932.41 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 89277.95 using 198 PHA bins.
Reduced chi-squared = 469.8840 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
54052.3 -3 110.4 18.95 0.3747 2.832
0.1514 103.0 18.86 2.768
43311.3 -4 93.91 19.35 1.611 7.733
782.9 94.99 19.29 6.934
42707.9 0 94.14 19.36 1.588 9.040
324.8 95.13 19.35 8.708
40636.4 0 95.54 19.36 1.499 9.409
114.3 96.19 19.36 9.378
38402.3 0 97.35 19.37 1.432 9.466
16.36 97.72 19.36 9.476
37494.1 -1 99.37 19.37 1.467 9.497
3.101 99.47 19.37 9.488
36564.6 -1 100.9 19.37 1.468 9.500
0.4454 100.9 19.37 9.496
35800.1 0 101.1 19.37 1.443 9.500
5.6992E-02 101.1 19.37 9.499
32485.3 0 102.8 19.37 1.355 9.500
1.0107E-02 102.8 19.37 9.500
31536.5 -1 104.7 19.37 1.381 9.500
2.8268E-03 104.7 19.37 9.500
29950.2 -1 106.1 19.37 1.365 9.500
8.3630E-04 106.3 19.37 9.500
28285.5 -1 107.3 19.37 1.343 9.500
1.5991E-04 107.6 19.37 9.500
26574.6 -1 108.5 19.37 1.317 9.500
5.4034E-05 108.8 19.37 9.500
24751.7 -1 109.7 19.37 1.287 9.500
2.3047E-05 110.0 19.37 9.500
23054.3 -1 110.8 19.37 1.258 9.500
4.7999E-06 111.2 19.37 9.500
21542.1 -1 111.9 19.37 1.231 9.500
2.2816E-06 112.2 19.37 9.500
17988.7 -1 114.8 19.37 1.155 9.500
1.6182E-08 114.8 19.37 9.500
17526.6 -1 115.3 19.37 1.145 9.500
4.4917E-09 115.3 19.37 9.500
17114.2 -1 115.7 19.37 1.133 9.500
1.5016E-09 115.6 19.37 9.500
16752.8 -1 116.1 19.37 1.122 9.500
7.7508E-12 116.0 19.37 9.500
16519.9 -1 116.4 19.37 1.115 9.500
1.7447E-12 116.2 19.37 9.500
16410.1 -1 116.6 19.37 1.112 9.500
2.3033E-13 116.3 19.37 9.500
Fit parameter 5 has pegged
15413.8 -2 117.1 19.37 1.055 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
15334.7 -3 117.3 19.37 1.052 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
15248.4 -4 117.4 19.37 1.047 9.500
0.000 117.1 19.37 9.500
Fit parameter 5 has pegged
15134.5 -5 117.6 19.37 1.040 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
15104.0 -6 117.6 19.37 1.039 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
15091.0 -7 117.7 19.37 1.038 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
15082.5 -8 117.7 19.37 1.038 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
15064.2 -9 117.7 19.37 1.037 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
15054.3 -2 117.7 19.37 1.036 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
15044.3 -2 117.7 19.37 1.036 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
15029.7 -2 117.8 19.37 1.035 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
14916.8 -1 118.0 19.37 1.028 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
14855.1 -1 118.1 19.37 1.024 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
14810.6 -1 118.2 19.37 1.020 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
14789.1 -1 118.3 19.37 1.019 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
14768.7 -1 118.4 19.37 1.017 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
14752.3 -1 118.4 19.37 1.016 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
14751.2 -1 118.4 19.37 1.016 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
14619.6 0 118.8 19.37 1.005 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
14537.8 0 119.1 19.37 0.9975 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
14486.6 0 119.4 19.37 0.9924 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
14453.9 0 119.5 19.37 0.9887 9.500
0.000 118.3 19.35 9.500
Fit parameter 5 has pegged
14430.8 0 119.7 19.37 0.9859 9.500
0.000 118.3 19.33 9.500
Fit parameter 5 has pegged
14414.0 0 119.8 19.37 0.9837 9.500
0.000 118.4 19.32 9.500
Fit parameter 5 has pegged
14403.0 0 119.8 19.37 0.9822 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
14392.8 0 119.9 19.37 0.9806 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
14386.7 0 119.9 19.37 0.9796 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
14380.8 0 120.0 19.37 0.9785 9.500
0.000 118.5 19.25 9.500
Fit parameter 5 has pegged
14377.4 0 120.0 19.37 0.9779 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
14374.5 0 120.0 19.37 0.9774 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
14373.2 0 120.0 19.37 0.9771 9.500
0.000 118.6 19.22 9.500
Fit parameter 5 has pegged
14372.1 0 120.0 19.37 0.9769 9.500
0.000 118.6 19.22 9.500
Fit parameter 5 has pegged
14371.3 0 120.0 19.37 0.9767 9.500
0.000 118.6 19.22 9.500
Fit parameter 5 has pegged
14369.4 0 120.0 19.37 0.9763 9.500
0.000 118.6 19.21 9.500
Fit parameter 5 has pegged
14369.3 0 120.0 19.37 0.9763 9.500
0.000 118.6 19.20 9.500
Fit parameter 5 has pegged
14367.7 0 120.1 19.37 0.9759 9.500
0.000 118.7 19.20 9.500
Fit parameter 5 has pegged
14366.9 0 120.1 19.37 0.9757 9.500
0.000 118.7 19.20 9.500
Fit parameter 5 has pegged
14366.2 0 120.1 19.37 0.9756 9.500
0.000 118.7 19.19 9.500
Fit parameter 5 has pegged
14360.2 0 120.1 19.37 0.9746 9.500
0.000 118.7 19.19 9.500
Fit parameter 5 has pegged
14354.6 0 120.2 19.37 0.9737 9.500
0.000 118.7 19.19 9.500
Fit parameter 5 has pegged
14349.6 0 120.2 19.37 0.9728 9.500
0.000 118.7 19.19 9.500
Fit parameter 5 has pegged
14345.1 0 120.3 19.37 0.9720 9.500
0.000 118.7 19.19 9.500
Fit parameter 5 has pegged
14341.1 0 120.3 19.37 0.9712 9.500
0.000 118.7 19.19 9.500
Fit parameter 5 has pegged
14337.4 0 120.3 19.37 0.9705 9.500
0.000 118.7 19.19 9.500
Fit parameter 5 has pegged
14334.1 0 120.4 19.37 0.9698 9.500
0.000 118.7 19.18 9.500
Fit parameter 5 has pegged
14331.2 0 120.4 19.37 0.9692 9.500
0.000 118.7 19.18 9.500
Fit parameter 5 has pegged
14328.4 0 120.4 19.37 0.9686 9.500
0.000 118.7 19.18 9.500
Fit parameter 5 has pegged
14325.9 0 120.5 19.37 0.9680 9.500
0.000 118.7 19.18 9.500
Fit parameter 5 has pegged
14323.7 0 120.5 19.37 0.9675 9.500
0.000 118.7 19.18 9.500
Fit parameter 5 has pegged
14321.6 0 120.5 19.37 0.9670 9.500
0.000 118.7 19.18 9.500
Fit parameter 5 has pegged
14319.7 0 120.6 19.37 0.9665 9.500
0.000 118.7 19.17 9.500
Fit parameter 5 has pegged
14317.9 0 120.6 19.37 0.9660 9.500
0.000 118.7 19.17 9.500
Fit parameter 5 has pegged
14316.4 0 120.6 19.37 0.9656 9.500
0.000 118.7 19.17 9.500
Fit parameter 5 has pegged
14315.0 0 120.6 19.37 0.9652 9.500
0.000 118.7 19.17 9.500
Fit parameter 5 has pegged
14313.7 0 120.7 19.37 0.9648 9.500
0.000 118.7 19.17 9.500
Fit parameter 5 has pegged
14312.5 0 120.7 19.37 0.9644 9.500
0.000 118.8 19.17 9.500
Fit parameter 5 has pegged
14311.4 0 120.7 19.37 0.9640 9.500
0.000 118.8 19.16 9.500
Fit parameter 5 has pegged
14310.4 0 120.7 19.37 0.9637 9.500
0.000 118.8 19.16 9.500
Fit parameter 5 has pegged
14309.5 0 120.7 19.37 0.9634 9.500
0.000 118.8 19.16 9.500
Fit parameter 5 has pegged
14308.6 0 120.8 19.37 0.9631 9.500
0.000 118.8 19.16 9.500
Fit parameter 5 has pegged
14307.9 0 120.8 19.37 0.9628 9.500
0.000 118.8 19.15 9.500
Fit parameter 5 has pegged
14307.1 0 120.8 19.37 0.9625 9.500
0.000 118.8 19.15 9.500
Fit parameter 5 has pegged
14306.5 0 120.8 19.37 0.9622 9.500
0.000 118.8 19.15 9.500
Fit parameter 5 has pegged
14305.8 0 120.8 19.37 0.9620 9.500
0.000 118.8 19.15 9.500
Fit parameter 5 has pegged
14305.1 0 120.8 19.37 0.9617 9.500
0.000 118.8 19.15 9.500
Fit parameter 5 has pegged
14304.7 0 120.8 19.37 0.9615 9.500
0.000 118.8 19.14 9.500
Fit parameter 5 has pegged
14304.1 0 120.8 19.37 0.9613 9.500
0.000 118.8 19.14 9.500
Fit parameter 5 has pegged
14303.5 0 120.9 19.37 0.9611 9.500
0.000 118.8 19.14 9.500
Fit parameter 5 has pegged
14303.2 0 120.9 19.37 0.9609 9.500
0.000 118.8 19.14 9.500
Fit parameter 5 has pegged
14302.8 0 120.9 19.37 0.9607 9.500
0.000 118.8 19.13 9.500
Fit parameter 5 has pegged
14302.4 0 120.9 19.37 0.9605 9.500
0.000 118.8 19.13 9.500
Fit parameter 5 has pegged
14302.0 0 120.9 19.37 0.9603 9.500
0.000 118.8 19.13 9.500
Fit parameter 5 has pegged
14301.7 0 120.9 19.37 0.9601 9.500
0.000 118.8 19.13 9.500
Fit parameter 5 has pegged
14301.3 0 120.9 19.37 0.9600 9.500
0.000 118.8 19.12 9.500
Fit parameter 5 has pegged
14301.0 0 120.9 19.37 0.9598 9.500
0.000 118.9 19.12 9.500
Fit parameter 5 has pegged
14300.7 0 120.9 19.37 0.9597 9.500
0.000 118.9 19.12 9.500
Fit parameter 5 has pegged
14300.5 0 120.9 19.37 0.9595 9.500
0.000 118.9 19.12 9.500
Fit parameter 5 has pegged
14300.2 0 120.9 19.37 0.9594 9.500
0.000 118.9 19.12 9.500
Fit parameter 5 has pegged
14300.0 0 120.9 19.37 0.9592 9.500
0.000 118.9 19.12 9.500
Fit parameter 5 has pegged
14299.8 0 120.9 19.37 0.9591 9.500
0.000 118.9 19.11 9.500
Fit parameter 5 has pegged
14299.6 0 120.9 19.37 0.9590 9.500
0.000 118.9 19.11 9.500
Fit parameter 5 has pegged
14299.5 0 121.0 19.37 0.9589 9.500
0.000 118.9 19.11 9.500
Fit parameter 5 has pegged
14299.2 0 121.0 19.37 0.9588 9.500
0.000 118.9 19.11 9.500
Fit parameter 5 has pegged
14299.1 0 121.0 19.37 0.9586 9.500
0.000 118.9 19.11 9.500
Fit parameter 5 has pegged
14298.9 0 121.0 19.37 0.9585 9.500
0.000 118.9 19.11 9.500
Fit parameter 5 has pegged
14298.7 0 121.0 19.37 0.9584 9.500
0.000 118.9 19.10 9.500
Fit parameter 5 has pegged
14298.6 0 121.0 19.37 0.9583 9.500
0.000 118.9 19.10 9.500
Fit parameter 5 has pegged
14298.5 0 121.0 19.37 0.9582 9.500
0.000 118.9 19.10 9.500
Fit parameter 5 has pegged
14298.4 0 121.0 19.37 0.9582 9.500
0.000 118.9 19.10 9.500
Fit parameter 5 has pegged
14298.1 0 121.0 19.37 0.9581 9.500
0.000 118.9 19.10 9.500
Fit parameter 5 has pegged
14298.1 3 121.0 19.37 0.9581 9.500
0.000 118.9 19.10 9.500
14298.1 4 121.0 19.37 0.9581 9.500
0.000 118.9 19.10 9.500
Fit parameter 5 has pegged
14298.1 4 121.0 19.37 0.9581 9.500
0.000 118.9 19.10 9.500
14297.9 0 121.0 19.37 0.9580 9.500
0.000 118.9 19.10 9.500
Fit parameter 5 has pegged
14297.8 0 121.0 19.37 0.9579 9.500
0.000 118.9 19.10 9.500
Fit parameter 5 has pegged
14297.7 0 121.0 19.37 0.9578 9.500
0.000 118.9 19.10 9.500
Fit parameter 5 has pegged
14297.7 0 121.0 19.37 0.9577 9.500
0.000 118.9 19.09 9.500
Fit parameter 5 has pegged
14297.6 0 121.0 19.37 0.9576 9.500
0.000 118.9 19.09 9.500
Fit parameter 5 has pegged
14297.5 0 121.0 19.37 0.9576 9.500
0.000 118.9 19.09 9.500
Fit parameter 5 has pegged
14297.4 0 121.0 19.37 0.9575 9.500
0.000 118.9 19.09 9.500
Fit parameter 5 has pegged
14297.3 0 121.0 19.37 0.9574 9.500
0.000 119.0 19.09 9.500
Fit parameter 5 has pegged
14297.2 0 121.0 19.37 0.9574 9.500
0.000 119.0 19.09 9.500
Fit parameter 5 has pegged
14297.2 0 121.0 19.37 0.9573 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14297.1 0 121.0 19.37 0.9572 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14297.0 0 121.0 19.37 0.9572 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14297.0 0 121.0 19.37 0.9571 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14297.0 0 121.0 19.37 0.9571 9.500
0.000 119.0 19.08 9.500
14296.8 0 121.0 19.37 0.9570 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14296.7 0 121.0 19.37 0.9570 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14296.7 0 121.0 19.37 0.9569 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14296.7 0 121.0 19.37 0.9569 9.500
0.000 119.0 19.08 9.500
14296.6 0 121.0 19.37 0.9568 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14296.5 0 121.0 19.37 0.9568 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14296.5 3 121.0 19.37 0.9568 9.500
0.000 119.0 19.08 9.500
Fit parameter 5 has pegged
14296.5 4 121.0 19.37 0.9568 9.500
0.000 119.0 19.08 9.500
14296.5 5 121.0 19.37 0.9568 9.500
0.000 119.0 19.08 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.17E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.42E-02 | 0.20 0.00 0.01 -0.97 -0.16
1.81E-02 | -0.98 -0.05 0.01 -0.20 -0.05
2.52E+00 | -0.05 0.99 0.00 -0.02 0.09
4.18E-01 | -0.01 -0.09 0.00 -0.16 0.98
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 121.036 +/- 0.159789 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.58060 1
3 3 1 gaussian norm 0.956787 +/- 0.433083E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 118.990 +/- 0.163108 2
7 7 3 gaussian Sigma keV 19.0792 +/- 0.650440 2
8 3 3 gaussian norm 0.956787 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 14296.48 using 198 PHA bins.
Reduced chi-squared = 75.24465 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 72.571) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 72.571) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8240 photons ( 1.6636E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8038 photons ( 1.6035E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:07 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.703 +/- 5.7321E-03
Net count rate (cts/s) for file 2 2.703 +/- 5.7321E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 811114.7 using 168 PHA bins.
Reduced chi-squared = 5069.467 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 23175.58 using 168 PHA bins.
Reduced chi-squared = 144.8474 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4242.69 -3 85.47 13.17 0.1222 0.9797
0.5512 86.08 11.86 0.9721
1238.63 -4 73.86 10.12 0.1177 0.8890
0.4468 78.01 9.904 0.8931
953.023 -3 80.29 9.707 0.1277 0.9723
0.5935 81.40 9.339 0.9708
550.270 -4 78.06 8.923 0.1373 0.9877
0.6573 80.80 9.491 0.9882
541.987 -5 78.40 8.916 0.1385 0.9905
0.6695 80.83 9.525 0.9918
541.925 -6 78.39 8.942 0.1387 0.9906
0.6701 80.83 9.530 0.9920
541.924 -7 78.40 8.932 0.1387 0.9905
0.6700 80.83 9.526 0.9919
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.94E-07 | 0.00 0.00 -0.34 0.61 -0.42 0.00 0.00 0.58
9.67E-07 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
4.32E-06 | 0.00 0.01 -0.94 -0.20 0.17 0.00 0.01 -0.22
7.95E-04 | 0.03 0.02 -0.02 -0.33 -0.89 0.03 0.02 -0.32
2.97E-02 | -0.16 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
4.11E-02 | 0.96 -0.06 0.00 0.01 0.02 -0.20 0.21 0.01
6.14E-02 | -0.19 0.58 0.01 0.00 0.01 -0.32 0.73 0.00
4.67E-02 | 0.15 0.26 0.00 0.01 0.03 0.92 0.23 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 78.3954 +/- 0.204069 1
2 2 1 gaussian Sigma keV 8.93205 +/- 0.203654 1
3 3 1 gaussian norm 0.138657 +/- 0.281827E-02 1
4 4 2 powerlaw PhoIndex 0.990521 +/- 0.997164E-02 1
5 5 2 powerlaw norm 0.669997 +/- 0.265701E-01 1
6 6 3 gaussian LineE keV 80.8271 +/- 0.218550 2
7 7 3 gaussian Sigma keV 9.52583 +/- 0.218850 2
8 3 3 gaussian norm 0.138657 = par 3 2
9 8 4 powerlaw PhoIndex 0.991933 +/- 0.958411E-02 2
10 5 4 powerlaw norm 0.669997 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 541.9241 using 168 PHA bins.
Reduced chi-squared = 3.387025 for 160 degrees of freedom
Null hypothesis probability = 5.241E-43
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.245) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.245) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9251 photons ( 1.1083E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9204 photons ( 1.1080E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
92.84934
=====best line=====
78.3944 0.203896
=====best sigma=====
8.93528 0.203467
=====norm=====
0.138685 0.281634E-02
=====phoindx=====
0.990547 0.997028E-02
=====pow_norm=====
0.670042 0.265640E-01
=====best line=====
80.8271 0.218528
=====best sigma=====
9.52742 0.218805
=====norm=====
0.138685 par
=====phoindx=====
0.991957 0.958271E-02
=====pow_norm=====
0.670042 par
=====redu_chi=====
3.387023
=====area_flux=====
0.9251
=====area_flux_f=====
0.9204
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 1 1 640 2000 1254.3104 0 0.138685 0.281634E-02 8.93528 0.203467 0.990547 0.997028E-02 0.670042 0.265640E-01 0.9251 640 2000 1293.2336 0 0.138685 0.281634E-02 9.52742 0.218805 0.991957 0.958271E-02 0.670042 0.265640E-01 0.9204 3.387023 1
=====redu_chi=====
469.8840
=====best line=====
121.036 0.159789
=====best sigma=====
19.3655 1.58060
=====norm=====
0.956787 0.433083E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
118.990 0.163108
=====best sigma=====
19.0792 0.650440
=====norm=====
0.956787 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
75.24465
=====area_flux=====
0.8240
=====area_flux_f=====
0.8038
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 1 1 1600 3200 1936.576 0 0.956787 0.433083E-02 309.848 25.2896 9.50000 -1.00000 0.00000 -1.00000 0.8240 1600 3200 1903.84 0 0.956787 0.433083E-02 305.2672 10.40704 9.50000 -1.00000 0.00000 -1.00000 0.8038 75.24465 1
=====redu_chi=====
144.8474
=====best line=====
78.3954 0.204069
=====best sigma=====
8.93205 0.203654
=====norm=====
0.138657 0.281827E-02
=====phoindx=====
0.990521 0.997164E-02
=====pow_norm=====
0.669997 0.265701E-01
=====best line=====
80.8271 0.218550
=====best sigma=====
9.52583 0.218850
=====norm=====
0.138657 par
=====phoindx=====
0.991933 0.958411E-02
=====pow_norm=====
0.669997 par
=====redu_chi=====
3.387025
=====area_flux=====
0.9251
=====area_flux_f=====
0.9204
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 1 1 640 2000 1254.3264 0 0.138657 0.281827E-02 8.93205 0.203654 0.990521 0.997164E-02 0.669997 0.265701E-01 0.9251 640 2000 1293.2336 0 0.138657 0.281827E-02 9.52583 0.218850 0.991933 0.958411E-02 0.669997 0.265701E-01 0.9204 3.387025 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:07 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.288 +/- 6.3212E-03
Net count rate (cts/s) for file 2 3.288 +/- 6.3212E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 399217.3 using 168 PHA bins.
Reduced chi-squared = 2495.108 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 23350.10 using 168 PHA bins.
Reduced chi-squared = 145.9381 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8590.18 -3 82.38 16.85 0.2766 1.038
0.7970 82.85 16.73 1.031
2171.88 -3 74.56 8.634 0.1720 0.8311
0.4357 75.74 9.064 0.8404
1566.82 -3 75.34 8.986 0.1911 0.9179
0.6147 76.79 9.621 0.9149
823.840 -4 75.51 8.924 0.1915 0.9433
0.7292 76.96 9.434 0.9435
779.728 -5 75.50 8.985 0.1925 0.9416
0.7374 76.94 9.496 0.9432
779.702 -6 75.51 8.961 0.1922 0.9415
0.7377 76.95 9.477 0.9432
779.699 -7 75.50 8.972 0.1923 0.9415
0.7375 76.95 9.484 0.9432
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.57E-07 | 0.00 0.00 -0.24 0.65 -0.40 0.00 0.00 0.60
7.12E-07 | 0.00 0.00 -0.01 -0.68 -0.01 0.00 0.00 0.73
5.89E-06 | 0.00 0.01 -0.97 -0.15 0.11 0.00 0.01 -0.16
6.58E-04 | 0.03 0.01 -0.01 -0.30 -0.91 0.03 0.01 -0.29
2.17E-02 | -0.13 -0.77 0.00 0.00 0.00 0.08 0.62 0.00
4.55E-02 | 0.26 -0.55 -0.01 0.00 0.01 0.41 -0.68 0.00
3.02E-02 | 0.95 0.00 0.00 0.01 0.02 -0.21 0.23 0.01
3.37E-02 | 0.12 0.33 0.00 0.01 0.03 0.88 0.31 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.5031 +/- 0.176446 1
2 2 1 gaussian Sigma keV 8.97173 +/- 0.173881 1
3 3 1 gaussian norm 0.192320 +/- 0.329661E-02 1
4 4 2 powerlaw PhoIndex 0.941490 +/- 0.823848E-02 1
5 5 2 powerlaw norm 0.737524 +/- 0.245477E-01 1
6 6 3 gaussian LineE keV 76.9477 +/- 0.188107 2
7 7 3 gaussian Sigma keV 9.48419 +/- 0.185094 2
8 3 3 gaussian norm 0.192320 = par 3 2
9 8 4 powerlaw PhoIndex 0.943184 +/- 0.791204E-02 2
10 5 4 powerlaw norm 0.737524 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 779.6991 using 168 PHA bins.
Reduced chi-squared = 4.873119 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.669) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.669) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.259 photons ( 1.5061E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.251 photons ( 1.5011E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:07 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.401 +/- 9.4845E-03
Net count rate (cts/s) for file 2 7.401 +/- 9.4845E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.114 +/- 1.1398E-02( 55.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.114 +/- 1.1398E-02( 55.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.7154602E+07 using 198 PHA bins.
Reduced chi-squared = 90287.38 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 89309.68 using 198 PHA bins.
Reduced chi-squared = 470.0509 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
54575.2 -3 108.1 18.50 0.4063 2.747
9.2117E-02 99.65 18.53 2.683
26755.6 -2 95.40 19.32 1.676 8.130
3.1215E-02 102.0 19.12 7.786
24423.4 -2 98.40 19.35 1.635 9.281
3.6667E-03 101.9 19.36 9.096
24002.7 -3 100.2 19.36 1.653 1.797
1.2009E-03 101.6 19.36 2.933
23690.4 -3 101.1 19.36 1.658 7.713
5.2220E-04 102.1 19.37 6.737
23324.3 -3 101.8 19.37 1.642 9.133
2.4054E-04 101.8 19.37 1.602
22805.1 -2 102.4 19.37 1.625 9.429
5.0569E-05 102.2 19.37 6.139
21598.3 -3 103.4 19.37 1.573 9.487
2.4921E-05 102.8 19.37 1.450
21061.0 -2 104.1 19.37 1.560 9.499
5.8745E-06 103.5 19.37 9.421
20634.5 -3 104.6 19.37 1.545 2.667
1.9103E-06 103.7 19.37 2.967
19539.8 -4 105.9 19.37 1.498 -0.7132
5.6101E-07 104.4 19.37 7.304
17494.5 -2 107.5 19.37 1.404 -0.5099
1.8907E-07 106.2 19.37 9.113
16095.7 -2 109.2 19.37 1.331 0.7777
6.4141E-08 107.9 19.37 9.342
15268.1 -1 110.9 19.37 1.265 7.572
1.0632E-08 109.4 19.37 9.450
14781.7 -2 112.2 19.37 1.214 9.351
1.3529E-09 110.9 18.96 9.489
14726.3 -2 112.8 19.37 1.201 9.496
4.8442E-10 111.5 18.89 9.498
14645.1 -3 113.0 19.37 1.193 -1.425
1.8436E-10 111.7 18.75 1.542
14497.3 -4 113.8 19.37 1.157 -2.287
5.8063E-11 112.3 17.49 6.036
14442.8 -2 113.4 19.37 1.172 -1.912
5.4960E-12 112.1 18.46 8.401
14418.9 -1 113.7 19.37 1.157 4.174
2.4481E-12 112.3 18.45 9.300
14328.0 0 113.9 19.37 1.150 8.519
2.3081E-14 112.3 18.29 9.416
Fit parameter 5 has pegged
14234.4 -2 114.4 19.23 1.111 9.674
0.000 113.0 17.72 9.771
Fit parameter 5 has pegged
14232.6 -3 114.4 19.29 1.110 9.674
0.000 113.1 17.69 9.771
Fit parameter 5 has pegged
14232.6 -2 114.4 19.26 1.109 9.674
0.000 113.1 17.68 9.771
Fit parameter 5 has pegged
14232.6 0 114.4 19.28 1.109 9.674
0.000 113.1 17.68 9.771
14232.6 4 114.4 19.28 1.109 9.674
0.000 113.1 17.68 9.771
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.61E-05 | -0.01 0.00 -1.00 -0.01 0.01
4.13E-03 | 0.01 0.00 0.00 0.45 0.89
1.61E-02 | -0.95 -0.10 0.01 0.26 -0.12
3.23E-02 | 0.28 0.08 -0.02 0.85 -0.43
1.30E+00 | 0.12 -0.99 0.00 0.05 -0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.387 +/- 0.187637 1
2 2 1 gaussian Sigma keV 19.2756 +/- 1.12981 1
3 3 1 gaussian norm 1.10919 +/- 0.585893E-02 1
4 4 2 powerlaw PhoIndex 9.67388 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.149 +/- 0.168049 2
7 7 3 gaussian Sigma keV 17.6822 +/- 0.101722 2
8 3 3 gaussian norm 1.10919 = par 3 2
9 8 4 powerlaw PhoIndex 9.77138 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 14232.58 using 198 PHA bins.
Reduced chi-squared = 74.90833 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 72.247) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 72.247) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8565 photons ( 1.6732E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8556 photons ( 1.6462E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:07 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.288 +/- 6.3212E-03
Net count rate (cts/s) for file 2 3.288 +/- 6.3212E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 492776.5 using 168 PHA bins.
Reduced chi-squared = 3079.853 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 37407.80 using 168 PHA bins.
Reduced chi-squared = 233.7987 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
12158.4 -3 85.49 14.68 0.1838 1.036
0.8214 85.55 14.29 1.026
2822.66 -4 70.46 16.83 0.2398 0.8925
0.5611 72.28 16.30 0.9002
1480.20 -1 77.46 7.323 0.2007 0.8919
0.5806 77.33 8.809 0.8922
821.173 -2 75.93 9.099 0.1916 0.9024
0.6215 76.82 9.491 0.9034
797.889 -3 75.46 8.998 0.1920 0.9319
0.6992 76.89 9.477 0.9323
780.747 -4 75.51 8.951 0.1921 0.9415
0.7353 76.95 9.475 0.9427
779.702 -5 75.50 8.975 0.1924 0.9415
0.7375 76.95 9.486 0.9432
779.698 -6 75.51 8.966 0.1922 0.9415
0.7376 76.95 9.481 0.9432
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.57E-07 | 0.00 0.00 -0.24 0.65 -0.40 0.00 0.00 0.60
7.13E-07 | 0.00 0.00 -0.01 -0.68 -0.01 0.00 0.00 0.73
5.90E-06 | 0.00 0.01 -0.97 -0.15 0.11 0.00 0.01 -0.16
6.58E-04 | 0.03 0.01 -0.01 -0.30 -0.91 0.03 0.01 -0.29
2.17E-02 | -0.13 -0.77 0.00 0.00 0.00 0.08 0.62 0.00
4.56E-02 | 0.26 -0.55 -0.01 0.00 0.01 0.41 -0.68 0.00
3.03E-02 | 0.95 0.00 0.00 0.01 0.02 -0.22 0.23 0.01
3.37E-02 | 0.12 0.33 0.00 0.01 0.03 0.88 0.31 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.5063 +/- 0.176689 1
2 2 1 gaussian Sigma keV 8.96574 +/- 0.174154 1
3 3 1 gaussian norm 0.192243 +/- 0.330106E-02 1
4 4 2 powerlaw PhoIndex 0.941499 +/- 0.824198E-02 1
5 5 2 powerlaw norm 0.737595 +/- 0.245521E-01 1
6 6 3 gaussian LineE keV 76.9485 +/- 0.188186 2
7 7 3 gaussian Sigma keV 9.48062 +/- 0.185223 2
8 3 3 gaussian norm 0.192243 = par 3 2
9 8 4 powerlaw PhoIndex 0.943191 +/- 0.791537E-02 2
10 5 4 powerlaw norm 0.737595 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 779.6985 using 168 PHA bins.
Reduced chi-squared = 4.873116 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.669) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.669) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.259 photons ( 1.5060E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.251 photons ( 1.5011E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
145.9381
=====best line=====
75.5031 0.176446
=====best sigma=====
8.97173 0.173881
=====norm=====
0.192320 0.329661E-02
=====phoindx=====
0.941490 0.823848E-02
=====pow_norm=====
0.737524 0.245477E-01
=====best line=====
76.9477 0.188107
=====best sigma=====
9.48419 0.185094
=====norm=====
0.192320 par
=====phoindx=====
0.943184 0.791204E-02
=====pow_norm=====
0.737524 par
=====redu_chi=====
4.873119
=====area_flux=====
1.259
=====area_flux_f=====
1.251
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 2 1 640 2000 1208.0496 0 0.192320 0.329661E-02 8.97173 0.173881 0.941490 0.823848E-02 0.737524 0.245477E-01 1.259 640 2000 1231.1632 0 0.192320 0.329661E-02 9.48419 0.185094 0.943184 0.791204E-02 0.737524 0.245477E-01 1.251 4.873119 1
=====redu_chi=====
470.0509
=====best line=====
114.387 0.187637
=====best sigma=====
19.2756 1.12981
=====norm=====
1.10919 0.585893E-02
=====phoindx=====
9.67388 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.149 0.168049
=====best sigma=====
17.6822 0.101722
=====norm=====
1.10919 par
=====phoindx=====
9.77138 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
74.90833
=====area_flux=====
0.8565
=====area_flux_f=====
0.8556
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 2 1 1600 3200 1830.192 0 1.10919 0.585893E-02 308.4096 18.07696 9.67388 -1.00000 0.00000 -1.00000 0.8565 1600 3200 1810.384 0 1.10919 0.585893E-02 282.9152 1.627552 9.77138 -1.00000 0.00000 -1.00000 0.8556 74.90833 1
=====redu_chi=====
233.7987
=====best line=====
75.5063 0.176689
=====best sigma=====
8.96574 0.174154
=====norm=====
0.192243 0.330106E-02
=====phoindx=====
0.941499 0.824198E-02
=====pow_norm=====
0.737595 0.245521E-01
=====best line=====
76.9485 0.188186
=====best sigma=====
9.48062 0.185223
=====norm=====
0.192243 par
=====phoindx=====
0.943191 0.791537E-02
=====pow_norm=====
0.737595 par
=====redu_chi=====
4.873116
=====area_flux=====
1.259
=====area_flux_f=====
1.251
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 2 1 640 2000 1208.1008 0 0.192243 0.330106E-02 8.96574 0.174154 0.941499 0.824198E-02 0.737595 0.245521E-01 1.259 640 2000 1231.176 0 0.192243 0.330106E-02 9.48062 0.185223 0.943191 0.791537E-02 0.737595 0.245521E-01 1.251 4.873116 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:07 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.491 +/- 5.5018E-03
Net count rate (cts/s) for file 2 2.491 +/- 5.5018E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 746893.4 using 168 PHA bins.
Reduced chi-squared = 4668.083 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 20167.83 using 168 PHA bins.
Reduced chi-squared = 126.0489 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
12488.6 -3 82.03 17.20 0.2065 1.108
0.6770 82.34 16.98 1.096
1731.25 -3 71.24 17.12 0.1905 0.8763
0.3914 73.00 16.21 0.8875
1509.48 -1 72.81 6.319 0.1634 0.8782
0.4032 74.01 9.043 0.8782
617.076 -2 72.73 8.137 0.1428 0.8980
0.4517 74.86 9.497 0.8981
555.772 -2 72.89 8.922 0.1460 0.9159
0.4876 75.13 9.563 0.9160
533.273 -2 73.07 8.807 0.1449 0.9299
0.5194 75.22 9.491 0.9302
530.522 -3 73.25 8.810 0.1450 0.9689
0.6045 75.45 9.471 0.9681
500.605 -4 73.32 8.828 0.1454 0.9813
0.6462 75.52 9.475 0.9816
498.854 -5 73.32 8.834 0.1454 0.9811
0.6488 75.53 9.478 0.9820
498.853 -6 73.32 8.833 0.1454 0.9811
0.6489 75.53 9.477 0.9820
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.84E-07 | 0.00 0.00 -0.33 0.61 -0.44 0.00 0.00 0.58
9.59E-07 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
4.66E-06 | 0.00 0.01 -0.94 -0.20 0.16 0.00 0.01 -0.21
7.07E-04 | 0.03 0.00 -0.01 -0.33 -0.88 0.03 0.00 -0.32
2.81E-02 | -0.17 -0.78 0.00 0.00 0.00 0.08 0.59 0.00
6.14E-02 | 0.27 -0.52 -0.01 0.01 0.02 0.46 -0.67 0.00
3.86E-02 | -0.95 -0.01 0.00 -0.01 -0.02 0.13 -0.29 -0.01
4.36E-02 | -0.01 -0.34 0.00 -0.01 -0.02 -0.88 -0.34 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.3240 +/- 0.199883 1
2 2 1 gaussian Sigma keV 8.83295 +/- 0.197182 1
3 3 1 gaussian norm 0.145418 +/- 0.286250E-02 1
4 4 2 powerlaw PhoIndex 0.981104 +/- 0.945269E-02 1
5 5 2 powerlaw norm 0.648858 +/- 0.249209E-01 1
6 6 3 gaussian LineE keV 75.5254 +/- 0.217034 2
7 7 3 gaussian Sigma keV 9.47731 +/- 0.213640 2
8 3 3 gaussian norm 0.145418 = par 3 2
9 8 4 powerlaw PhoIndex 0.982038 +/- 0.907284E-02 2
10 5 4 powerlaw norm 0.648858 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 498.8527 using 168 PHA bins.
Reduced chi-squared = 3.117830 for 160 degrees of freedom
Null hypothesis probability = 1.764E-36
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.987) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.987) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9382 photons ( 1.1134E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9350 photons ( 1.1147E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.878 +/- 8.4520E-03
Net count rate (cts/s) for file 2 5.878 +/- 8.4520E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.387 +/- 1.0085E-02( 57.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.387 +/- 1.0085E-02( 57.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.7758254E+07 using 198 PHA bins.
Reduced chi-squared = 93464.49 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 80534.71 using 198 PHA bins.
Reduced chi-squared = 423.8669 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
41626.4 -3 116.9 19.36 0.3405 2.723
9.2464E-02 111.7 19.36 2.660
39292.3 -2 110.7 19.36 0.9599 6.921
4.3065E-02 115.9 8.849 8.298
21647.9 -3 117.4 12.64 0.7810 1.722
1.8820E-02 114.6 17.72 1.072
15658.8 -2 114.0 17.11 0.9653 0.8619
5.5750E-03 112.9 18.46 1.174
14416.9 -2 111.8 19.10 1.063 0.9726
4.1133E-04 110.9 19.08 2.283
14090.8 -2 112.1 19.33 1.033 2.789
1.2830E-04 111.2 19.24 6.766
14090.6 3 112.1 19.33 1.033 2.506
1.9773E-05 111.2 19.24 8.400
14088.9 2 112.1 19.34 1.033 8.714
4.0531E-06 111.2 19.24 9.225
14071.9 1 112.1 19.35 1.032 9.395
8.0799E-07 111.2 19.23 9.402
13990.0 0 112.2 19.36 1.028 9.480
2.1229E-07 111.1 19.18 9.477
13930.5 0 112.2 19.36 1.025 9.497
1.0275E-07 111.1 19.14 9.490
13884.7 0 112.3 19.37 1.021 9.500
4.4698E-08 111.0 19.10 9.498
13847.6 0 112.4 19.37 1.018 9.500
1.5282E-08 111.0 19.06 9.499
13817.6 0 112.4 19.37 1.015 9.500
6.9633E-10 111.0 19.04 9.500
13770.4 0 112.6 19.37 1.010 9.500
1.4358E-11 111.0 18.99 9.500
13732.4 0 112.7 19.37 1.005 9.500
2.8007E-14 111.0 18.94 9.500
Fit parameter 5 has pegged
13636.1 0 112.9 19.37 0.9904 9.500
0.000 111.1 18.66 9.500
Fit parameter 5 has pegged
13535.2 -1 113.3 19.37 0.9629 9.500
0.000 112.1 18.09 9.500
Fit parameter 5 has pegged
13489.9 -2 113.7 19.37 0.9505 9.500
0.000 112.7 18.16 9.500
Fit parameter 5 has pegged
13479.3 -3 114.0 19.37 0.9391 9.500
0.000 113.1 17.87 9.500
Fit parameter 5 has pegged
13476.9 -4 114.1 19.35 0.9396 9.500
0.000 113.0 18.00 9.500
Fit parameter 5 has pegged
13476.4 -5 114.1 19.33 0.9374 9.500
0.000 113.1 17.91 9.500
Fit parameter 5 has pegged
13476.3 -6 114.1 19.35 0.9384 9.500
0.000 113.1 17.96 9.500
Fit parameter 5 has pegged
13476.3 -7 114.1 19.34 0.9381 9.500
0.000 113.1 17.94 9.500
Fit parameter 5 has pegged
13476.2 -8 114.1 19.35 0.9382 9.500
0.000 113.1 17.95 9.500
Fit parameter 5 has pegged
13476.2 -1 114.1 19.36 0.9384 9.500
0.000 113.1 17.94 9.500
Fit parameter 5 has pegged
13476.2 5 114.1 19.36 0.9384 9.500
0.000 113.1 17.94 9.500
13476.2 5 114.1 19.36 0.9384 9.500
0.000 113.1 17.94 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.28E-05 | -0.01 0.00 -1.00 -0.01 0.01
6.69E-03 | 0.00 0.00 0.00 -0.57 -0.82
1.80E-02 | -0.97 -0.08 0.01 0.20 -0.14
4.23E-02 | 0.24 0.07 -0.01 0.80 -0.55
2.28E+00 | -0.10 0.99 0.00 -0.04 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.090 +/- 0.202088 1
2 2 1 gaussian Sigma keV 19.3569 +/- 1.49981 1
3 3 1 gaussian norm 0.938427 +/- 0.532995E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.107 +/- 0.182378 2
7 7 3 gaussian Sigma keV 17.9442 +/- 0.138782 2
8 3 3 gaussian norm 0.938427 = par 3 2
9 8 4 powerlaw PhoIndex 9.50039 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13476.17 using 198 PHA bins.
Reduced chi-squared = 70.92719 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 68.407) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 68.407) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.7194 photons ( 1.4041E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7201 photons ( 1.3874E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.491 +/- 5.5018E-03
Net count rate (cts/s) for file 2 2.491 +/- 5.5018E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 888259.6 using 168 PHA bins.
Reduced chi-squared = 5551.623 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 31401.73 using 168 PHA bins.
Reduced chi-squared = 196.2608 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
18562.6 -3 85.63 15.07 0.1267 1.111
0.6951 85.45 14.53 1.094
2856.15 -4 66.39 18.54 0.2289 1.018
0.7329 68.88 17.97 1.025
2785.84 -1 76.19 6.646 0.1762 1.023
0.7275 76.39 6.842 1.023
598.766 -2 74.79 8.300 0.1392 1.009
0.7379 76.07 8.418 1.010
505.172 -3 73.37 9.204 0.1472 0.9906
0.6738 75.61 9.590 0.9923
499.341 -4 73.40 8.741 0.1445 0.9817
0.6517 75.54 9.432 0.9829
498.901 -5 73.31 8.867 0.1457 0.9810
0.6483 75.52 9.495 0.9819
498.858 -6 73.33 8.822 0.1453 0.9812
0.6491 75.53 9.471 0.9821
498.853 -7 73.32 8.837 0.1455 0.9811
0.6488 75.52 9.480 0.9820
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.84E-07 | 0.00 0.00 -0.33 0.61 -0.44 0.00 0.00 0.58
9.59E-07 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
4.65E-06 | 0.00 0.01 -0.94 -0.20 0.16 0.00 0.01 -0.21
7.07E-04 | 0.03 0.00 -0.01 -0.33 -0.88 0.03 0.00 -0.32
2.81E-02 | -0.17 -0.78 0.00 0.00 0.00 0.08 0.59 0.00
6.13E-02 | 0.27 -0.52 -0.01 0.01 0.02 0.46 -0.67 0.00
3.85E-02 | -0.95 0.00 0.00 -0.01 -0.02 0.13 -0.29 -0.01
4.36E-02 | -0.01 -0.34 0.00 -0.01 -0.02 -0.88 -0.34 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.3217 +/- 0.199638 1
2 2 1 gaussian Sigma keV 8.83715 +/- 0.196913 1
3 3 1 gaussian norm 0.145458 +/- 0.285928E-02 1
4 4 2 powerlaw PhoIndex 0.981082 +/- 0.944906E-02 1
5 5 2 powerlaw norm 0.648776 +/- 0.249188E-01 1
6 6 3 gaussian LineE keV 75.5246 +/- 0.216972 2
7 7 3 gaussian Sigma keV 9.47964 +/- 0.213538 2
8 3 3 gaussian norm 0.145458 = par 3 2
9 8 4 powerlaw PhoIndex 0.982020 +/- 0.906939E-02 2
10 5 4 powerlaw norm 0.648776 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 498.8532 using 168 PHA bins.
Reduced chi-squared = 3.117832 for 160 degrees of freedom
Null hypothesis probability = 1.764E-36
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.987) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.987) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9382 photons ( 1.1134E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9350 photons ( 1.1147E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
126.0489
=====best line=====
73.3240 0.199883
=====best sigma=====
8.83295 0.197182
=====norm=====
0.145418 0.286250E-02
=====phoindx=====
0.981104 0.945269E-02
=====pow_norm=====
0.648858 0.249209E-01
=====best line=====
75.5254 0.217034
=====best sigma=====
9.47731 0.213640
=====norm=====
0.145418 par
=====phoindx=====
0.982038 0.907284E-02
=====pow_norm=====
0.648858 par
=====redu_chi=====
3.117830
=====area_flux=====
0.9382
=====area_flux_f=====
0.9350
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 3 1 640 2000 1173.184 0 0.145418 0.286250E-02 8.83295 0.197182 0.981104 0.945269E-02 0.648858 0.249209E-01 0.9382 640 2000 1208.4064 0 0.145418 0.286250E-02 9.47731 0.213640 0.982038 0.907284E-02 0.648858 0.249209E-01 0.9350 3.117830 1
=====redu_chi=====
423.8669
=====best line=====
114.090 0.202088
=====best sigma=====
19.3569 1.49981
=====norm=====
0.938427 0.532995E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.107 0.182378
=====best sigma=====
17.9442 0.138782
=====norm=====
0.938427 par
=====phoindx=====
9.50039 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
70.92719
=====area_flux=====
0.7194
=====area_flux_f=====
0.7201
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 3 1 1600 3200 1825.44 0 0.938427 0.532995E-02 309.7104 23.99696 9.50000 -1.00000 0.00000 -1.00000 0.7194 1600 3200 1809.712 0 0.938427 0.532995E-02 287.1072 2.220512 9.50039 -1.00000 0.00000 -1.00000 0.7201 70.92719 1
=====redu_chi=====
196.2608
=====best line=====
73.3217 0.199638
=====best sigma=====
8.83715 0.196913
=====norm=====
0.145458 0.285928E-02
=====phoindx=====
0.981082 0.944906E-02
=====pow_norm=====
0.648776 0.249188E-01
=====best line=====
75.5246 0.216972
=====best sigma=====
9.47964 0.213538
=====norm=====
0.145458 par
=====phoindx=====
0.982020 0.906939E-02
=====pow_norm=====
0.648776 par
=====redu_chi=====
3.117832
=====area_flux=====
0.9382
=====area_flux_f=====
0.9350
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 3 1 640 2000 1173.1472 0 0.145458 0.285928E-02 8.83715 0.196913 0.981082 0.944906E-02 0.648776 0.249188E-01 0.9382 640 2000 1208.3936 0 0.145458 0.285928E-02 9.47964 0.213538 0.982020 0.906939E-02 0.648776 0.249188E-01 0.9350 3.117832 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.359 +/- 5.3550E-03
Net count rate (cts/s) for file 2 2.359 +/- 5.3550E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 581052.9 using 168 PHA bins.
Reduced chi-squared = 3631.581 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 6821.798 using 168 PHA bins.
Reduced chi-squared = 42.63624 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1048.94 -3 87.65 12.09 0.1322 0.8612
0.4189 88.66 11.61 0.8585
631.304 -4 85.27 11.02 0.1528 0.9187
0.4965 87.61 11.05 0.9167
591.231 -5 85.66 10.80 0.1522 0.9232
0.5165 87.78 11.12 0.9230
590.685 -6 85.60 10.97 0.1540 0.9259
0.5222 87.79 11.19 0.9259
590.608 -7 85.64 10.89 0.1531 0.9245
0.5201 87.80 11.14 0.9247
590.596 -8 85.62 10.94 0.1536 0.9253
0.5215 87.79 11.17 0.9254
590.589 -9 85.63 10.91 0.1534 0.9249
0.5208 87.80 11.16 0.9251
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.12E-07 | 0.00 0.00 -0.31 0.57 -0.52 0.00 0.00 0.55
9.53E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.10E-06 | 0.00 0.04 -0.95 -0.16 0.20 0.00 0.03 -0.17
5.93E-04 | 0.02 0.26 -0.02 -0.37 -0.78 0.02 0.23 -0.36
1.05E-03 | 0.00 -0.71 0.00 -0.01 -0.02 0.01 0.70 -0.01
3.38E-03 | 0.01 -0.65 -0.06 -0.15 -0.27 0.01 -0.67 -0.14
6.46E-02 | 0.60 0.00 0.00 0.01 0.03 0.80 0.00 0.01
5.64E-02 | -0.80 0.00 0.00 0.00 -0.01 0.60 -0.01 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 85.6328 +/- 0.243555 1
2 2 1 gaussian Sigma keV 10.9136 +/- 0.448831E-01 1
3 3 1 gaussian norm 0.153367 +/- 0.412179E-02 1
4 4 2 powerlaw PhoIndex 0.924894 +/- 0.130591E-01 1
5 5 2 powerlaw norm 0.520761 +/- 0.261505E-01 1
6 6 3 gaussian LineE keV 87.7954 +/- 0.248185 2
7 7 3 gaussian Sigma keV 11.1566 +/- 0.455352E-01 2
8 3 3 gaussian norm 0.153367 = par 3 2
9 8 4 powerlaw PhoIndex 0.925054 +/- 0.125491E-01 2
10 5 4 powerlaw norm 0.520761 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 590.5885 using 168 PHA bins.
Reduced chi-squared = 3.691178 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.536) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.536) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9616 photons ( 1.1770E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9610 photons ( 1.1815E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.688 +/- 8.3143E-03
Net count rate (cts/s) for file 2 5.688 +/- 8.3143E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.328 +/- 9.8896E-03( 58.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.328 +/- 9.8896E-03( 58.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 2946499. using 198 PHA bins.
Reduced chi-squared = 15507.89 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 106714.1 using 198 PHA bins.
Reduced chi-squared = 561.6530 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
57306.5 -3 124.2 19.00 0.4463 2.753
0.6732 128.0 18.92 2.895
56701.4 2 124.2 19.00 0.4469 2.069
2.252 128.0 18.92 2.667
55663.8 1 124.4 18.96 0.4532 2.023
2.818 128.1 18.90 2.484
46085.7 0 125.4 18.69 0.5086 1.799
6.259 128.7 18.71 2.084
27856.4 0 127.7 19.16 0.7770 1.767
6.947 129.6 19.32 2.154
24597.6 -1 125.0 19.31 1.253 1.817
4.083 126.6 19.35 2.934
23719.7 0 125.0 19.36 1.220 1.819
4.123 126.6 19.36 9.392
23279.4 0 125.1 19.36 1.199 1.814
4.325 126.7 19.36 9.455
23037.2 0 125.2 19.37 1.186 1.815
4.428 126.8 19.37 9.496
22901.9 0 125.3 19.37 1.179 1.818
4.483 126.8 19.37 9.500
22811.1 0 125.4 19.37 1.175 1.817
4.634 126.9 19.37 9.500
22750.8 0 125.5 19.37 1.172 1.820
4.696 127.0 19.37 9.500
22705.7 0 125.6 19.37 1.170 1.822
4.785 127.0 19.37 9.500
22671.4 0 125.6 19.37 1.168 1.827
4.811 127.1 19.37 9.500
22655.3 0 125.7 19.37 1.168 1.828
4.937 127.1 19.37 9.500
22631.4 0 125.7 19.37 1.167 1.832
4.982 127.1 19.37 9.500
22623.7 0 125.8 19.37 1.166 1.835
5.060 127.1 19.37 9.500
22607.5 0 125.8 19.37 1.166 1.838
5.144 127.1 19.37 9.500
22598.4 0 125.8 19.37 1.165 1.841
5.232 127.2 19.37 9.500
22500.4 0 125.9 19.37 1.159 1.840
5.250 127.2 19.37 9.500
22414.1 0 125.9 19.37 1.153 1.840
5.274 127.3 19.37 9.500
22338.2 0 126.0 19.37 1.148 1.839
5.300 127.3 19.37 9.500
22271.0 0 126.1 19.37 1.143 1.838
5.329 127.4 19.37 9.500
22211.1 0 126.1 19.37 1.138 1.838
5.356 127.5 19.37 9.500
22157.9 0 126.2 19.37 1.134 1.837
5.383 127.5 19.37 9.500
22110.5 0 126.3 19.37 1.130 1.836
5.413 127.6 19.37 9.500
22068.0 0 126.3 19.37 1.126 1.836
5.444 127.6 19.37 9.500
22029.9 0 126.4 19.37 1.123 1.835
5.472 127.7 19.37 9.500
21995.8 0 126.5 19.37 1.120 1.835
5.500 127.7 19.37 9.500
21965.0 0 126.5 19.37 1.117 1.834
5.528 127.8 19.37 9.500
21912.2 0 126.6 19.37 1.112 1.833
5.581 127.9 19.37 9.500
21889.6 0 126.7 19.37 1.109 1.833
5.604 127.9 19.37 9.500
21869.0 0 126.7 19.37 1.107 1.832
5.627 127.9 19.37 9.500
21850.5 0 126.8 19.37 1.105 1.832
5.650 128.0 19.37 9.500
21833.6 0 126.8 19.37 1.103 1.832
5.672 128.0 19.37 9.500
21818.2 0 126.9 19.37 1.102 1.832
5.691 128.0 19.37 9.500
21804.1 0 126.9 19.37 1.100 1.831
5.713 128.1 19.37 9.500
21791.3 0 127.0 19.37 1.098 1.831
5.731 128.1 19.37 9.500
21779.5 0 127.0 19.37 1.097 1.831
5.749 128.1 19.37 9.500
21768.9 0 127.1 19.37 1.096 1.831
5.767 128.2 19.37 9.500
21759.1 0 127.1 19.37 1.095 1.831
5.785 128.2 19.37 9.500
21749.9 0 127.1 19.37 1.093 1.831
5.802 128.2 19.37 9.500
21741.5 0 127.2 19.37 1.092 1.831
5.816 128.3 19.37 9.500
21733.9 0 127.2 19.37 1.091 1.831
5.831 128.3 19.37 9.500
21726.9 0 127.2 19.37 1.090 1.831
5.845 128.3 19.37 9.500
21720.4 0 127.3 19.37 1.089 1.831
5.860 128.3 19.37 9.500
21714.5 0 127.3 19.37 1.089 1.831
5.874 128.4 19.37 9.500
21709.0 0 127.3 19.37 1.088 1.831
5.886 128.4 19.37 9.500
21703.8 0 127.4 19.37 1.087 1.832
5.898 128.4 19.37 9.500
21699.1 0 127.4 19.37 1.086 1.832
5.913 128.4 19.37 9.500
21694.8 0 127.4 19.37 1.086 1.832
5.927 128.4 19.37 9.500
21690.7 0 127.5 19.37 1.085 1.832
5.938 128.4 19.37 9.500
21687.0 0 127.5 19.37 1.085 1.832
5.950 128.5 19.37 9.500
21683.4 0 127.5 19.37 1.084 1.832
5.962 128.5 19.37 9.500
21680.3 0 127.5 19.37 1.084 1.832
5.973 128.5 19.37 9.500
21677.1 0 127.6 19.37 1.083 1.833
5.985 128.5 19.37 9.500
21674.3 0 127.6 19.37 1.083 1.833
5.995 128.5 19.37 9.500
21671.7 0 127.6 19.37 1.082 1.833
6.006 128.5 19.37 9.500
21669.2 0 127.6 19.37 1.082 1.833
6.019 128.5 19.37 9.500
21666.9 0 127.6 19.37 1.082 1.834
6.028 128.6 19.37 9.500
21664.7 0 127.7 19.37 1.081 1.834
6.040 128.6 19.37 9.500
21662.8 0 127.7 19.37 1.081 1.834
6.052 128.6 19.37 9.500
21660.9 0 127.7 19.37 1.081 1.834
6.062 128.6 19.37 9.500
21659.1 0 127.7 19.37 1.080 1.834
6.072 128.6 19.37 9.500
21657.5 0 127.7 19.37 1.080 1.835
6.081 128.6 19.37 9.500
21655.9 0 127.7 19.37 1.080 1.835
6.092 128.6 19.37 9.500
21654.4 0 127.8 19.37 1.079 1.835
6.102 128.6 19.37 9.500
21653.1 0 127.8 19.37 1.079 1.836
6.113 128.6 19.37 9.500
21651.8 0 127.8 19.37 1.079 1.836
6.123 128.6 19.37 9.500
21650.6 0 127.8 19.37 1.079 1.836
6.133 128.6 19.37 9.500
21649.5 0 127.8 19.37 1.079 1.836
6.144 128.7 19.37 9.500
21648.5 0 127.8 19.37 1.078 1.837
6.155 128.7 19.37 9.500
21647.5 0 127.8 19.37 1.078 1.837
6.165 128.7 19.37 9.500
21646.5 0 127.9 19.37 1.078 1.837
6.176 128.7 19.37 9.500
21645.6 0 127.9 19.37 1.078 1.837
6.184 128.7 19.37 9.500
21644.8 0 127.9 19.37 1.078 1.838
6.193 128.7 19.37 9.500
21644.0 0 127.9 19.37 1.078 1.838
6.204 128.7 19.37 9.500
21643.2 0 127.9 19.37 1.077 1.838
6.215 128.7 19.37 9.500
21642.5 0 127.9 19.37 1.077 1.839
6.226 128.7 19.37 9.500
21641.8 0 127.9 19.37 1.077 1.839
6.237 128.7 19.37 9.500
21641.1 0 127.9 19.37 1.077 1.839
6.246 128.7 19.37 9.500
21640.6 0 127.9 19.37 1.077 1.839
6.255 128.7 19.37 9.500
21640.0 0 127.9 19.37 1.077 1.840
6.266 128.7 19.37 9.500
21639.4 0 127.9 19.37 1.077 1.840
6.276 128.7 19.37 9.500
21638.8 0 127.9 19.37 1.077 1.840
6.285 128.7 19.37 9.500
21638.3 0 128.0 19.37 1.077 1.841
6.294 128.7 19.37 9.500
21637.9 0 128.0 19.37 1.076 1.841
6.304 128.7 19.37 9.500
21637.3 0 128.0 19.37 1.076 1.841
6.314 128.7 19.37 9.500
21636.9 0 128.0 19.37 1.076 1.842
6.324 128.7 19.37 9.500
21636.5 0 128.0 19.37 1.076 1.842
6.334 128.7 19.37 9.500
21636.1 0 128.0 19.37 1.076 1.842
6.344 128.7 19.37 9.500
21635.7 0 128.0 19.37 1.076 1.842
6.354 128.7 19.37 9.500
21635.3 0 128.0 19.37 1.076 1.843
6.365 128.7 19.37 9.500
21635.0 0 128.0 19.37 1.076 1.843
6.375 128.7 19.37 9.500
21634.6 0 128.0 19.37 1.076 1.843
6.386 128.7 19.37 9.500
21634.3 0 128.0 19.37 1.076 1.844
6.396 128.7 19.37 9.500
21634.0 0 128.0 19.37 1.076 1.844
6.407 128.7 19.37 9.500
21633.8 0 128.0 19.37 1.076 1.844
6.417 128.7 19.37 9.500
21633.5 0 128.0 19.37 1.076 1.845
6.427 128.8 19.37 9.500
21633.1 0 128.0 19.37 1.076 1.845
6.438 128.8 19.37 9.500
21632.8 0 128.0 19.37 1.076 1.845
6.448 128.8 19.37 9.500
21632.6 0 128.0 19.37 1.076 1.845
6.459 128.8 19.37 9.500
21632.4 0 128.0 19.37 1.076 1.846
6.470 128.8 19.37 9.500
21632.1 0 128.0 19.37 1.076 1.846
6.480 128.8 19.37 9.500
21631.8 0 128.0 19.37 1.075 1.846
6.491 128.8 19.37 9.500
21631.6 0 128.0 19.37 1.075 1.847
6.501 128.8 19.37 9.500
21631.4 0 128.1 19.37 1.075 1.847
6.512 128.8 19.37 9.500
21631.2 0 128.1 19.37 1.075 1.847
6.523 128.8 19.37 9.500
21630.9 0 128.1 19.37 1.075 1.847
6.534 128.8 19.37 9.500
21630.7 0 128.1 19.37 1.075 1.848
6.545 128.8 19.37 9.500
21630.5 0 128.1 19.37 1.075 1.848
6.556 128.8 19.37 9.500
21630.3 0 128.1 19.37 1.075 1.848
6.564 128.8 19.37 9.500
21630.2 0 128.1 19.37 1.075 1.849
6.575 128.8 19.37 9.500
21630.0 0 128.1 19.37 1.075 1.849
6.586 128.8 19.37 9.500
21629.8 0 128.1 19.37 1.075 1.849
6.597 128.8 19.37 9.500
21629.6 0 128.1 19.37 1.075 1.850
6.608 128.8 19.37 9.500
21629.5 0 128.1 19.37 1.075 1.850
6.617 128.8 19.37 9.500
21629.2 0 128.1 19.37 1.075 1.850
6.626 128.8 19.37 9.500
21629.1 0 128.1 19.37 1.075 1.851
6.638 128.8 19.37 9.500
21628.9 0 128.1 19.37 1.075 1.851
6.647 128.8 19.37 9.500
21628.7 0 128.1 19.37 1.075 1.851
6.657 128.8 19.37 9.500
21628.7 0 128.1 19.37 1.075 1.852
6.669 128.8 19.37 9.500
21628.5 0 128.1 19.37 1.075 1.852
6.678 128.8 19.37 9.500
21628.4 0 128.1 19.37 1.075 1.852
6.690 128.8 19.37 9.500
21628.2 0 128.1 19.37 1.075 1.852
6.702 128.8 19.37 9.500
21628.1 0 128.1 19.37 1.075 1.853
6.714 128.8 19.37 9.500
21627.9 0 128.1 19.37 1.075 1.853
6.723 128.8 19.37 9.500
21627.7 0 128.1 19.37 1.075 1.853
6.736 128.8 19.37 9.500
21627.6 0 128.1 19.37 1.075 1.854
6.745 128.8 19.37 9.500
21627.5 0 128.1 19.37 1.075 1.854
6.755 128.8 19.37 9.500
21627.4 0 128.1 19.37 1.075 1.854
6.765 128.8 19.37 9.500
21627.2 0 128.1 19.37 1.075 1.855
6.778 128.8 19.37 9.500
21627.0 0 128.1 19.37 1.075 1.855
6.788 128.8 19.37 9.500
21626.9 0 128.1 19.37 1.075 1.855
6.800 128.8 19.37 9.500
21626.8 0 128.1 19.37 1.075 1.855
6.813 128.8 19.37 9.500
21626.7 0 128.1 19.37 1.075 1.856
6.822 128.8 19.37 9.500
21626.5 0 128.1 19.37 1.075 1.856
6.835 128.8 19.37 9.500
21626.4 0 128.1 19.37 1.075 1.856
6.845 128.8 19.37 9.500
21626.3 0 128.1 19.37 1.075 1.857
6.857 128.8 19.37 9.500
21626.2 0 128.1 19.37 1.075 1.857
6.870 128.8 19.37 9.500
21626.1 0 128.1 19.37 1.075 1.857
6.882 128.8 19.37 9.500
21625.9 0 128.1 19.37 1.075 1.857
6.894 128.8 19.37 9.500
21625.7 0 128.1 19.37 1.075 1.858
6.903 128.8 19.37 9.500
21625.7 0 128.1 19.37 1.075 1.858
6.913 128.8 19.37 9.500
21625.6 0 128.1 19.37 1.075 1.858
6.925 128.8 19.37 9.500
21625.4 0 128.1 19.37 1.075 1.859
6.937 128.8 19.37 9.500
21625.3 0 128.1 19.37 1.075 1.859
6.950 128.8 19.37 9.500
21625.2 0 128.1 19.37 1.075 1.859
6.959 128.8 19.37 9.500
21625.0 0 128.1 19.37 1.075 1.860
6.969 128.8 19.37 9.500
21624.9 0 128.1 19.37 1.075 1.860
6.982 128.8 19.37 9.500
21624.8 0 128.1 19.37 1.075 1.860
6.994 128.8 19.37 9.500
21624.7 0 128.1 19.37 1.075 1.861
7.006 128.8 19.37 9.500
21624.6 0 128.1 19.37 1.075 1.861
7.018 128.8 19.37 9.500
21624.5 0 128.1 19.37 1.075 1.861
7.030 128.8 19.37 9.500
21624.3 0 128.1 19.37 1.075 1.861
7.042 128.8 19.37 9.500
21624.2 0 128.1 19.37 1.075 1.862
7.055 128.8 19.37 9.500
21624.0 1 128.1 19.37 1.075 1.862
7.057 128.8 19.37 9.500
21624.0 0 128.1 19.37 1.075 1.862
7.069 128.8 19.37 9.500
21623.8 0 128.1 19.37 1.075 1.862
7.081 128.8 19.37 9.500
21623.7 0 128.1 19.37 1.075 1.863
7.092 128.8 19.37 9.500
21623.6 0 128.1 19.37 1.075 1.863
7.104 128.8 19.37 9.500
21623.4 1 128.1 19.37 1.074 1.863
7.106 128.8 19.37 9.500
21623.4 0 128.1 19.37 1.074 1.863
7.118 128.8 19.37 9.500
21623.2 0 128.1 19.37 1.074 1.863
7.129 128.8 19.37 9.500
21623.1 0 128.1 19.37 1.074 1.864
7.141 128.8 19.37 9.500
21623.0 0 128.1 19.37 1.074 1.864
7.153 128.8 19.37 9.500
21623.0 0 128.1 19.37 1.074 1.864
7.165 128.8 19.37 9.500
21622.9 0 128.1 19.37 1.074 1.865
7.177 128.8 19.37 9.500
21622.8 0 128.1 19.37 1.074 1.865
7.189 128.8 19.37 9.500
21622.7 0 128.1 19.37 1.074 1.865
7.200 128.8 19.37 9.500
21622.6 0 128.1 19.37 1.074 1.866
7.212 128.8 19.37 9.500
21622.5 0 128.1 19.37 1.074 1.866
7.224 128.8 19.37 9.500
21622.4 0 128.1 19.37 1.074 1.866
7.236 128.8 19.37 9.500
21622.3 0 128.1 19.37 1.074 1.866
7.248 128.8 19.37 9.500
21622.3 0 128.1 19.37 1.074 1.867
7.260 128.8 19.37 9.500
21622.2 0 128.1 19.37 1.074 1.867
7.272 128.8 19.37 9.500
21622.1 0 128.1 19.37 1.074 1.867
7.284 128.8 19.37 9.500
21622.0 0 128.1 19.37 1.074 1.868
7.296 128.8 19.37 9.500
21621.9 0 128.1 19.37 1.074 1.868
7.308 128.8 19.37 9.500
21621.8 0 128.1 19.37 1.074 1.868
7.320 128.8 19.37 9.500
21621.7 0 128.1 19.37 1.074 1.869
7.332 128.8 19.37 9.500
21621.6 0 128.1 19.37 1.074 1.869
7.344 128.8 19.37 9.500
21621.5 0 128.1 19.37 1.074 1.869
7.356 128.8 19.37 9.500
21621.4 0 128.1 19.37 1.074 1.869
7.368 128.8 19.37 9.500
21621.3 0 128.1 19.37 1.074 1.870
7.380 128.8 19.37 9.500
21621.1 1 128.1 19.37 1.074 1.870
7.382 128.8 19.37 9.500
21621.0 0 128.1 19.37 1.074 1.870
7.394 128.8 19.37 9.500
21621.0 0 128.1 19.37 1.074 1.870
7.406 128.8 19.37 9.500
21621.0 0 128.1 19.37 1.074 1.871
7.418 128.8 19.37 9.500
21620.9 0 128.1 19.37 1.074 1.871
7.429 128.8 19.37 9.500
21620.8 0 128.1 19.37 1.074 1.871
7.441 128.8 19.37 9.500
21620.7 0 128.1 19.37 1.074 1.872
7.453 128.8 19.37 9.500
21620.6 0 128.1 19.37 1.074 1.872
7.464 128.8 19.37 9.500
21620.5 0 128.1 19.37 1.074 1.872
7.476 128.8 19.37 9.500
21620.4 0 128.1 19.37 1.074 1.873
7.489 128.8 19.37 9.500
21620.4 0 128.1 19.37 1.074 1.873
7.502 128.8 19.37 9.500
21620.3 0 128.1 19.37 1.074 1.873
7.514 128.8 19.37 9.500
21620.2 0 128.1 19.37 1.074 1.873
7.526 128.8 19.37 9.500
21620.1 0 128.1 19.37 1.074 1.874
7.539 128.8 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.20E-05 | 0.00 0.00 -0.98 0.18 -0.01 0.00 0.00
4.92E-05 | 0.00 0.00 -0.18 -0.98 0.03 0.00 0.00
1.66E-02 | -1.00 -0.02 0.00 0.00 0.01 -0.09 -0.01
1.41E-02 | -0.09 0.00 0.00 0.00 0.00 1.00 0.04
2.01E+00 | 0.00 0.31 0.00 0.00 -0.04 0.03 -0.95
4.17E+00 | 0.02 -0.95 0.00 0.00 -0.01 0.02 -0.31
1.05E+02 | 0.01 0.00 0.00 0.03 1.00 0.00 -0.04
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 128.121 +/- 0.146365 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.99109 1
3 3 1 gaussian norm 1.07437 +/- 0.569928E-02 1
4 4 2 powerlaw PhoIndex 1.87376 +/- 0.274091 1
5 5 2 powerlaw norm 7.53885 +/- 10.2534 1
6 6 3 gaussian LineE keV 128.784 +/- 0.135931 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.55183 2
8 3 3 gaussian norm 1.07437 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 7.53885 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 21620.12 using 198 PHA bins.
Reduced chi-squared = 113.7901 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square (109.747) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square (109.747) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.065 photons ( 2.2444E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.000 photons ( 2.1082E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:09 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.359 +/- 5.3550E-03
Net count rate (cts/s) for file 2 2.359 +/- 5.3550E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 647179.0 using 168 PHA bins.
Reduced chi-squared = 4044.869 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13547.20 using 168 PHA bins.
Reduced chi-squared = 84.67000 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1209.54 -3 88.23 11.78 0.1580 0.9430
0.5168 89.09 11.31 0.9370
604.224 -4 85.69 11.82 0.1605 0.9420
0.5536 87.84 11.59 0.9416
596.124 -5 85.85 10.51 0.1490 0.9180
0.5086 87.84 10.89 0.9191
591.983 -6 85.54 11.13 0.1556 0.9287
0.5268 87.77 11.31 0.9285
590.964 -7 85.68 10.81 0.1521 0.9229
0.5174 87.81 11.08 0.9232
590.709 -8 85.60 10.98 0.1541 0.9262
0.5228 87.79 11.21 0.9262
590.616 -9 85.64 10.89 0.1531 0.9244
0.5200 87.80 11.14 0.9246
590.599 -10 85.62 10.94 0.1537 0.9254
0.5216 87.79 11.18 0.9255
590.589 -11 85.63 10.91 0.1533 0.9249
0.5207 87.80 11.16 0.9250
590.589 -7 85.63 10.93 0.1535 0.9251
0.5212 87.79 11.17 0.9253
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.11E-07 | 0.00 0.00 -0.31 0.57 -0.52 0.00 0.00 0.55
9.52E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.08E-06 | 0.00 0.04 -0.95 -0.16 0.20 0.00 0.03 -0.17
5.91E-04 | 0.02 0.26 -0.02 -0.37 -0.78 0.02 0.23 -0.36
1.04E-03 | 0.00 -0.71 0.00 -0.01 -0.02 0.01 0.70 -0.01
3.35E-03 | 0.01 -0.65 -0.06 -0.15 -0.27 0.01 -0.67 -0.14
6.45E-02 | -0.60 0.00 0.00 -0.01 -0.03 -0.80 0.00 -0.01
5.63E-02 | 0.80 0.00 0.00 0.00 0.01 -0.60 0.01 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 85.6265 +/- 0.243167 1
2 2 1 gaussian Sigma keV 10.9271 +/- 0.447145E-01 1
3 3 1 gaussian norm 0.153520 +/- 0.410684E-02 1
4 4 2 powerlaw PhoIndex 0.925146 +/- 0.130301E-01 1
5 5 2 powerlaw norm 0.521172 +/- 0.260619E-01 1
6 6 3 gaussian LineE keV 87.7937 +/- 0.248002 2
7 7 3 gaussian Sigma keV 11.1668 +/- 0.454022E-01 2
8 3 3 gaussian norm 0.153520 = par 3 2
9 8 4 powerlaw PhoIndex 0.925283 +/- 0.125215E-01 2
10 5 4 powerlaw norm 0.521172 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 590.5889 using 168 PHA bins.
Reduced chi-squared = 3.691181 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.536) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.536) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9615 photons ( 1.1769E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9610 photons ( 1.1815E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
42.63624
=====best line=====
85.6328 0.243555
=====best sigma=====
10.9136 0.448831E-01
=====norm=====
0.153367 0.412179E-02
=====phoindx=====
0.924894 0.130591E-01
=====pow_norm=====
0.520761 0.261505E-01
=====best line=====
87.7954 0.248185
=====best sigma=====
11.1566 0.455352E-01
=====norm=====
0.153367 par
=====phoindx=====
0.925054 0.125491E-01
=====pow_norm=====
0.520761 par
=====redu_chi=====
3.691178
=====area_flux=====
0.9616
=====area_flux_f=====
0.9610
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 4 1 640 2000 1370.1248 0 0.153367 0.412179E-02 10.9136 0.448831E-01 0.924894 0.130591E-01 0.520761 0.261505E-01 0.9616 640 2000 1404.7264 0 0.153367 0.412179E-02 11.1566 0.455352E-01 0.925054 0.125491E-01 0.520761 0.261505E-01 0.9610 3.691178 1
=====redu_chi=====
561.6530
=====best line=====
128.121 0.146365
=====best sigma=====
19.3655 1.99109
=====norm=====
1.07437 0.569928E-02
=====phoindx=====
1.87376 0.274091
=====pow_norm=====
7.53885 10.2534
=====best line=====
128.784 0.135931
=====best sigma=====
19.3655 1.55183
=====norm=====
1.07437 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
7.53885 par
=====redu_chi=====
113.7901
=====area_flux=====
1.065
=====area_flux_f=====
1.000
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 4 1 1600 3200 2049.936 0 1.07437 0.569928E-02 309.848 31.85744 1.87376 0.274091 7.53885 10.2534 1.065 1600 3200 2060.544 0 1.07437 0.569928E-02 309.848 24.82928 9.50000 -1.00000 7.53885 10.2534 1.000 113.7901 1
=====redu_chi=====
84.67000
=====best line=====
85.6265 0.243167
=====best sigma=====
10.9271 0.447145E-01
=====norm=====
0.153520 0.410684E-02
=====phoindx=====
0.925146 0.130301E-01
=====pow_norm=====
0.521172 0.260619E-01
=====best line=====
87.7937 0.248002
=====best sigma=====
11.1668 0.454022E-01
=====norm=====
0.153520 par
=====phoindx=====
0.925283 0.125215E-01
=====pow_norm=====
0.521172 par
=====redu_chi=====
3.691181
=====area_flux=====
0.9615
=====area_flux_f=====
0.9610
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 4 1 640 2000 1370.024 0 0.153520 0.410684E-02 10.9271 0.447145E-01 0.925146 0.130301E-01 0.521172 0.260619E-01 0.9615 640 2000 1404.6992 0 0.153520 0.410684E-02 11.1668 0.454022E-01 0.925283 0.125215E-01 0.521172 0.260619E-01 0.9610 3.691181 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:09 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.406 +/- 5.4073E-03
Net count rate (cts/s) for file 2 2.406 +/- 5.4073E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 753118.4 using 168 PHA bins.
Reduced chi-squared = 4706.990 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17132.42 using 168 PHA bins.
Reduced chi-squared = 107.0776 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
10566.2 -3 82.83 16.42 0.1885 1.092
0.6506 82.60 16.44 1.082
3535.19 -4 75.80 8.179 0.1017 0.8055
0.2785 75.14 8.112 0.8191
1391.42 -2 76.06 9.953 0.1415 0.8550
0.3536 76.43 12.97 0.8532
978.637 -2 76.42 9.100 0.1331 0.8882
0.4194 76.13 9.604 0.8881
854.789 -2 76.44 9.474 0.1418 0.9182
0.4761 76.67 9.744 0.9187
791.071 -2 76.61 9.387 0.1415 0.9416
0.5285 76.79 9.651 0.9423
751.907 -2 76.69 9.425 0.1422 0.9601
0.5735 76.90 9.673 0.9611
728.390 -2 76.78 9.436 0.1426 0.9749
0.6117 76.99 9.676 0.9760
727.523 -3 76.99 9.489 0.1443 1.016
0.7173 77.21 9.723 1.016
693.488 -4 77.07 9.538 0.1452 1.031
0.7732 77.28 9.753 1.032
691.041 -5 77.08 9.545 0.1453 1.031
0.7777 77.29 9.755 1.033
691.038 -6 77.08 9.546 0.1454 1.031
0.7778 77.29 9.756 1.033
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.49E-07 | 0.00 0.00 -0.36 0.62 -0.37 0.00 0.00 0.59
1.00E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.75E-06 | 0.00 0.01 -0.93 -0.23 0.15 0.00 0.01 -0.23
1.01E-03 | 0.04 0.01 -0.01 -0.29 -0.91 0.04 0.01 -0.28
3.12E-02 | -0.14 -0.72 0.00 0.00 0.00 0.13 0.67 0.00
6.71E-02 | 0.29 -0.60 -0.01 0.00 0.01 0.35 -0.66 0.00
4.43E-02 | 0.89 -0.04 0.00 0.01 0.02 -0.40 0.21 0.01
4.69E-02 | 0.33 0.34 0.00 0.01 0.04 0.84 0.28 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0816 +/- 0.214786 1
2 2 1 gaussian Sigma keV 9.54593 +/- 0.214401 1
3 3 1 gaussian norm 0.145355 +/- 0.293478E-02 1
4 4 2 powerlaw PhoIndex 1.03091 +/- 0.991773E-02 1
5 5 2 powerlaw norm 0.777787 +/- 0.308593E-01 1
6 6 3 gaussian LineE keV 77.2891 +/- 0.220657 2
7 7 3 gaussian Sigma keV 9.75560 +/- 0.220271 2
8 3 3 gaussian norm 0.145355 = par 3 2
9 8 4 powerlaw PhoIndex 1.03267 +/- 0.951713E-02 2
10 5 4 powerlaw norm 0.777787 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 691.0377 using 168 PHA bins.
Reduced chi-squared = 4.318985 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.138) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.138) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9143 photons ( 1.0891E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9086 photons ( 1.0826E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:09 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.653 +/- 8.2890E-03
Net count rate (cts/s) for file 2 5.653 +/- 8.2890E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.247 +/- 9.8968E-03( 57.4% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.247 +/- 9.8968E-03( 57.4% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.7270712E+07 using 198 PHA bins.
Reduced chi-squared = 90898.48 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 89884.40 using 198 PHA bins.
Reduced chi-squared = 473.0758 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
50567.0 -3 111.7 19.36 0.3585 2.742
9.9054E-02 106.8 17.61 2.693
18666.5 -2 109.8 19.37 1.263 8.245
1.8740E-03 107.3 19.18 6.048
16567.9 -2 111.7 19.37 1.156 9.242
2.5353E-04 108.7 19.33 9.314
16165.4 -3 112.9 19.37 1.130 1.440
1.2192E-05 109.9 19.36 2.549
Maximum number of increasing lambda iterations exceeded
without decreasing the fit statistic, probable minimum
found to available numerical accuracy
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.47E-05 | -0.01 0.00 -1.00 0.00 -0.03 -0.01 0.00 0.00
1.44E-04 | 0.03 0.01 -0.03 0.00 1.00 0.00 0.00 0.00
1.16E-02 | -0.22 0.01 -0.01 0.00 0.01 0.97 0.11 0.00
2.10E-02 | 0.97 0.05 -0.01 0.00 -0.03 0.22 0.05 0.00
4.58E+00 | -0.05 0.92 0.00 0.00 0.00 -0.06 0.38 0.00
1.32E+00 | 0.00 -0.38 0.00 0.00 0.00 -0.10 0.92 0.00
8.58E+06 | 0.00 0.00 0.00 -1.00 0.00 0.00 0.00 0.00
1.03E+08 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 -1.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 112.856 +/- 0.186159 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.09445 1
3 3 1 gaussian norm 1.12990 +/- 0.702784E-02 1
4 4 2 powerlaw PhoIndex 1.44025 +/- 2929.14 1
5 5 2 powerlaw norm 1.219235E-05 +/- 0.356254 1
6 6 3 gaussian LineE keV 109.875 +/- 0.203571 2
7 7 3 gaussian Sigma keV 19.3571 +/- 1.36264 2
8 3 3 gaussian norm 1.12990 = par 3 2
9 8 4 powerlaw PhoIndex 2.54923 +/- 10140.3 2
10 5 4 powerlaw norm 1.219235E-05 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 16165.40 using 198 PHA bins.
Reduced chi-squared = 85.08106 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 82.058) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 82.058) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8435 photons ( 1.6375E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7852 photons ( 1.5051E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:09 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.406 +/- 5.4073E-03
Net count rate (cts/s) for file 2 2.406 +/- 5.4073E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 874806.9 using 168 PHA bins.
Reduced chi-squared = 5467.543 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 26716.62 using 168 PHA bins.
Reduced chi-squared = 166.9789 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
20280.3 -3 85.67 14.35 0.1388 1.140
0.7131 85.49 14.20 1.127
3515.71 -4 73.69 16.51 0.1901 1.010
0.7678 73.26 16.26 1.020
2684.52 -2 81.46 4.990 5.1544E-02 1.029
0.8403 80.89 5.912 1.029
1754.58 -3 78.38 13.38 0.1111 1.035
0.8249 77.45 12.96 1.037
794.260 -4 77.67 8.985 0.1212 1.024
0.7772 78.06 9.128 1.026
696.857 -5 76.91 9.874 0.1468 1.032
0.7814 77.19 10.05 1.034
693.208 -6 77.17 9.421 0.1439 1.031
0.7800 77.33 9.908 1.033
691.094 -7 77.06 9.579 0.1455 1.031
0.7775 77.29 9.746 1.033
691.042 -8 77.09 9.536 0.1453 1.031
0.7779 77.29 9.753 1.033
691.038 -9 77.08 9.549 0.1454 1.031
0.7778 77.29 9.757 1.033
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.48E-07 | 0.00 0.00 -0.36 0.62 -0.37 0.00 0.00 0.59
9.99E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.74E-06 | 0.00 0.01 -0.93 -0.23 0.15 0.00 0.01 -0.23
1.01E-03 | 0.04 0.01 -0.01 -0.29 -0.91 0.04 0.01 -0.28
3.12E-02 | -0.14 -0.72 0.00 0.00 0.00 0.13 0.67 0.00
6.70E-02 | 0.29 -0.60 -0.01 0.00 0.01 0.35 -0.66 0.00
4.42E-02 | 0.89 -0.04 0.00 0.01 0.02 -0.39 0.21 0.01
4.69E-02 | 0.32 0.34 0.00 0.01 0.04 0.84 0.28 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0797 +/- 0.214601 1
2 2 1 gaussian Sigma keV 9.54918 +/- 0.214189 1
3 3 1 gaussian norm 0.145382 +/- 0.293291E-02 1
4 4 2 powerlaw PhoIndex 1.03091 +/- 0.991493E-02 1
5 5 2 powerlaw norm 0.777758 +/- 0.308576E-01 1
6 6 3 gaussian LineE keV 77.2886 +/- 0.220669 2
7 7 3 gaussian Sigma keV 9.75688 +/- 0.220266 2
8 3 3 gaussian norm 0.145382 = par 3 2
9 8 4 powerlaw PhoIndex 1.03267 +/- 0.951454E-02 2
10 5 4 powerlaw norm 0.777758 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 691.0383 using 168 PHA bins.
Reduced chi-squared = 4.318989 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.138) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.138) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9143 photons ( 1.0891E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9086 photons ( 1.0826E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
107.0776
=====best line=====
77.0816 0.214786
=====best sigma=====
9.54593 0.214401
=====norm=====
0.145355 0.293478E-02
=====phoindx=====
1.03091 0.991773E-02
=====pow_norm=====
0.777787 0.308593E-01
=====best line=====
77.2891 0.220657
=====best sigma=====
9.75560 0.220271
=====norm=====
0.145355 par
=====phoindx=====
1.03267 0.951713E-02
=====pow_norm=====
0.777787 par
=====redu_chi=====
4.318985
=====area_flux=====
0.9143
=====area_flux_f=====
0.9086
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 5 1 640 2000 1233.3056 0 0.145355 0.293478E-02 9.54593 0.214401 1.03091 0.991773E-02 0.777787 0.308593E-01 0.9143 640 2000 1236.6256 0 0.145355 0.293478E-02 9.75560 0.220271 1.03267 0.951713E-02 0.777787 0.308593E-01 0.9086 4.318985 1
=====redu_chi=====
473.0758
=====best line=====
112.856 0.186159
=====best sigma=====
19.3655 2.09445
=====norm=====
1.12990 0.702784E-02
=====phoindx=====
1.44025 2929.14
=====pow_norm=====
1.219235E-05 0.356254
=====best line=====
109.875 0.203571
=====best sigma=====
19.3571 1.36264
=====norm=====
1.12990 par
=====phoindx=====
2.54923 10140.3
=====pow_norm=====
1.219235E-05 par
=====redu_chi=====
85.08106
=====area_flux=====
0.8435
=====area_flux_f=====
0.7852
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 5 1 1600 3200 1805.696 0 1.12990 0.702784E-02 309.848 33.5112 1.44025 2929.14 1.219235E-05 0.356254 0.8435 1600 3200 1758 0 1.12990 0.702784E-02 309.7136 21.80224 2.54923 10140.3 1.219235E-05 0.356254 0.7852 85.08106 1
=====redu_chi=====
166.9789
=====best line=====
77.0797 0.214601
=====best sigma=====
9.54918 0.214189
=====norm=====
0.145382 0.293291E-02
=====phoindx=====
1.03091 0.991493E-02
=====pow_norm=====
0.777758 0.308576E-01
=====best line=====
77.2886 0.220669
=====best sigma=====
9.75688 0.220266
=====norm=====
0.145382 par
=====phoindx=====
1.03267 0.951454E-02
=====pow_norm=====
0.777758 par
=====redu_chi=====
4.318989
=====area_flux=====
0.9143
=====area_flux_f=====
0.9086
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 5 1 640 2000 1233.2752 0 0.145382 0.293291E-02 9.54918 0.214189 1.03091 0.991493E-02 0.777758 0.308576E-01 0.9143 640 2000 1236.6176 0 0.145382 0.293291E-02 9.75688 0.220266 1.03267 0.951454E-02 0.777758 0.308576E-01 0.9086 4.318989 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:10 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.403 +/- 5.4040E-03
Net count rate (cts/s) for file 2 2.403 +/- 5.4040E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 642222.0 using 168 PHA bins.
Reduced chi-squared = 4013.887 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12271.05 using 168 PHA bins.
Reduced chi-squared = 76.69408 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1845.26 -3 84.18 15.86 0.1794 0.8943
0.4347 84.66 15.22 0.8900
1270.29 -3 77.95 8.721 9.7073E-02 0.7931
0.2974 79.95 8.933 0.7954
1087.81 -4 78.44 10.60 0.1401 0.8608
0.3805 80.98 14.14 0.8578
721.299 -5 78.90 9.727 0.1184 0.8537
0.3957 81.19 9.067 0.8530
696.257 -2 78.45 9.565 0.1388 0.8580
0.3940 80.85 11.60 0.8578
636.737 -3 78.55 9.353 0.1343 0.8599
0.3987 80.94 9.876 0.8592
633.871 -1 78.49 9.545 0.1379 0.8602
0.3980 80.87 9.990 0.8600
633.682 -2 78.51 9.557 0.1387 0.8611
0.3990 80.86 9.993 0.8608
633.604 -3 78.52 9.565 0.1389 0.8632
0.4024 80.87 9.997 0.8628
633.586 -4 78.53 9.566 0.1389 0.8639
0.4037 80.87 10.000 0.8636
633.578 -5 78.53 9.566 0.1389 0.8639
0.4038 80.87 10.00 0.8637
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.07E-07 | 0.00 0.00 -0.27 0.53 -0.62 0.00 0.00 0.51
9.25E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
4.67E-06 | 0.00 0.01 -0.96 -0.13 0.20 0.00 0.02 -0.14
3.80E-04 | 0.02 0.01 -0.02 -0.47 -0.76 0.02 0.04 -0.45
4.01E-03 | 0.00 0.11 -0.02 -0.02 -0.03 -0.02 -0.99 -0.02
4.86E-02 | 0.81 0.56 0.00 0.01 0.02 -0.16 0.06 0.01
6.13E-02 | -0.47 0.46 0.00 -0.01 -0.01 -0.75 0.07 -0.01
5.39E-02 | 0.35 -0.68 -0.01 -0.01 -0.01 -0.64 -0.06 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 78.5285 +/- 0.228149 1
2 2 1 gaussian Sigma keV 9.56616 +/- 0.230572 1
3 3 1 gaussian norm 0.138935 +/- 0.308732E-02 1
4 4 2 powerlaw PhoIndex 0.863946 +/- 0.984815E-02 1
5 5 2 powerlaw norm 0.403820 +/- 0.158660E-01 1
6 6 3 gaussian LineE keV 80.8749 +/- 0.240561 2
7 7 3 gaussian Sigma keV 10.0040 +/- 0.681392E-01 2
8 3 3 gaussian norm 0.138935 = par 3 2
9 8 4 powerlaw PhoIndex 0.863680 +/- 0.946054E-02 2
10 5 4 powerlaw norm 0.403820 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 633.5782 using 168 PHA bins.
Reduced chi-squared = 3.959864 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.794) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.794) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9517 photons ( 1.1530E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9526 photons ( 1.1593E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:10 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.654 +/- 8.2898E-03
Net count rate (cts/s) for file 2 5.654 +/- 8.2898E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.251 +/- 9.8956E-03( 57.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.251 +/- 9.8956E-03( 57.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 9852965. using 198 PHA bins.
Reduced chi-squared = 51857.71 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 100140.2 using 198 PHA bins.
Reduced chi-squared = 527.0535 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
54758.4 -3 118.5 18.67 0.4031 2.904
0.1922 110.3 18.61 2.857
35080.7 -2 105.5 19.25 1.513 7.706
7.9616E-02 106.2 19.17 9.216
34792.9 -1 106.0 19.35 1.534 9.486
2.2013E-02 106.6 19.35 9.386
34490.7 -1 106.4 19.37 1.535 1.068
7.1681E-03 106.9 19.36 9.451
34155.3 -1 106.7 19.37 1.530 1.136
6.8723E-03 107.2 19.36 9.486
33831.0 -1 106.9 19.37 1.525 1.233
6.4917E-03 107.5 19.37 9.498
33501.2 -1 107.2 19.37 1.519 1.336
8.5140E-03 107.7 19.37 9.500
33129.7 -1 107.4 19.37 1.513 1.532
8.5537E-03 107.9 19.37 9.500
32966.5 -1 107.6 19.37 1.511 1.369
4.3128E-02 108.1 19.37 9.500
32451.2 -1 107.8 19.37 1.501 1.433
3.9516E-02 108.4 19.37 9.500
32168.8 -1 108.0 19.37 1.496 1.550
3.1368E-02 108.6 19.37 9.500
28486.0 0 109.1 19.37 1.400 1.509
3.8845E-02 109.7 19.37 9.500
25787.6 0 110.5 19.37 1.333 1.498
4.2514E-02 111.2 19.37 9.500
23679.8 0 112.0 19.37 1.286 1.500
4.3518E-02 112.6 19.37 9.500
22089.4 0 113.4 19.37 1.251 1.537
3.7421E-02 113.9 19.37 9.500
20900.2 0 114.6 19.37 1.224 1.593
2.9392E-02 115.0 19.37 9.500
20033.3 0 115.7 19.37 1.203 1.686
1.9378E-02 115.9 19.37 9.500
19416.2 0 116.6 19.37 1.186 1.992
7.7047E-03 116.5 19.37 9.500
18644.0 0 118.0 19.37 1.159 8.462
1.5496E-03 117.3 19.37 9.500
18417.0 0 118.5 19.37 1.150 9.477
2.7201E-04 117.6 19.37 9.500
18263.4 0 119.0 19.37 1.146 9.496
4.0204E-06 117.9 19.37 9.500
18146.6 0 119.3 19.37 1.141 9.498
1.7343E-06 118.1 19.37 9.500
18062.6 0 119.6 19.37 1.137 9.499
5.8286E-07 118.2 19.37 9.500
17992.9 0 119.8 19.37 1.134 9.500
2.8901E-07 118.4 19.37 9.500
17941.1 0 120.0 19.37 1.131 9.500
1.4163E-07 118.5 19.37 9.500
17901.3 0 120.1 19.37 1.129 9.500
6.7535E-08 118.6 19.37 9.500
17871.3 0 120.3 19.37 1.127 9.500
3.0130E-08 118.6 19.37 9.500
17830.2 0 120.4 19.37 1.124 9.500
1.0330E-09 118.7 19.37 9.500
17820.6 0 120.4 19.37 1.123 9.500
3.8438E-10 118.7 19.37 9.500
17807.8 0 120.5 19.37 1.122 9.500
5.9167E-11 118.8 19.37 9.500
17797.1 0 120.5 19.37 1.121 9.500
1.8835E-11 118.8 19.37 9.500
17789.8 0 120.5 19.37 1.120 9.500
8.6983E-12 118.8 19.37 9.500
17787.0 0 120.5 19.37 1.120 9.500
3.6237E-12 118.8 19.37 9.500
17783.8 0 120.5 19.37 1.120 9.500
1.1031E-12 118.8 19.37 9.500
17780.2 0 120.6 19.37 1.119 9.500
4.6694E-13 118.8 19.37 9.500
Fit parameter 5 has pegged
17755.7 0 120.5 19.37 1.115 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17749.4 0 120.5 19.37 1.114 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
17720.7 0 120.6 19.37 1.110 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
17694.9 0 120.6 19.37 1.107 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
17671.7 0 120.7 19.37 1.105 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
17650.6 0 120.8 19.37 1.102 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
17631.5 0 120.8 19.37 1.100 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17614.2 0 120.9 19.37 1.097 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17598.5 0 121.0 19.37 1.095 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17584.2 0 121.0 19.37 1.093 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17571.3 0 121.1 19.37 1.092 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17559.4 0 121.1 19.37 1.090 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17548.4 0 121.2 19.37 1.088 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17538.3 0 121.3 19.37 1.087 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17529.1 0 121.3 19.37 1.085 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17520.7 0 121.4 19.37 1.084 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17513.0 0 121.4 19.37 1.083 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17505.8 0 121.4 19.37 1.082 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
17499.2 0 121.5 19.37 1.081 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
17493.2 0 121.5 19.37 1.080 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
17487.5 0 121.6 19.37 1.079 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
17482.3 0 121.6 19.37 1.078 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
17477.6 0 121.7 19.37 1.077 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
17473.1 0 121.7 19.37 1.076 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
17468.9 0 121.7 19.37 1.076 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17465.1 0 121.8 19.37 1.075 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17461.6 0 121.8 19.37 1.074 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17458.3 0 121.8 19.37 1.074 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17455.3 0 121.9 19.37 1.073 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17452.5 0 121.9 19.37 1.072 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17449.9 0 121.9 19.37 1.072 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17447.4 0 121.9 19.37 1.071 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17445.1 0 122.0 19.37 1.071 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17443.0 0 122.0 19.37 1.070 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
17441.1 0 122.0 19.37 1.070 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17439.2 0 122.0 19.37 1.070 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17437.5 0 122.1 19.37 1.069 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17436.0 0 122.1 19.37 1.069 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17434.4 0 122.1 19.37 1.069 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17433.0 0 122.1 19.37 1.068 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17431.7 0 122.1 19.37 1.068 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17430.5 0 122.2 19.37 1.068 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17429.3 0 122.2 19.37 1.067 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17428.3 0 122.2 19.37 1.067 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17427.3 0 122.2 19.37 1.067 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17426.4 0 122.2 19.37 1.067 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17425.5 0 122.2 19.37 1.066 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17424.7 0 122.3 19.37 1.066 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17424.0 0 122.3 19.37 1.066 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17423.2 0 122.3 19.37 1.066 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17422.6 0 122.3 19.37 1.065 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17421.8 0 122.3 19.37 1.065 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17421.3 0 122.3 19.37 1.065 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
17420.8 0 122.3 19.37 1.065 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17420.2 0 122.3 19.37 1.065 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17419.7 0 122.3 19.37 1.065 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17419.2 0 122.4 19.37 1.064 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17418.8 0 122.4 19.37 1.064 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17418.3 0 122.4 19.37 1.064 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17417.9 0 122.4 19.37 1.064 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17417.6 0 122.4 19.37 1.064 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17417.2 0 122.4 19.37 1.064 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17417.0 0 122.4 19.37 1.064 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17416.6 0 122.4 19.37 1.064 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17416.3 0 122.4 19.37 1.064 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17416.0 0 122.4 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17415.8 0 122.4 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17415.5 0 122.4 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17415.3 0 122.4 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17415.0 0 122.4 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17414.9 0 122.5 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17414.7 0 122.5 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17414.5 0 122.5 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17414.3 0 122.5 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17414.1 0 122.5 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17413.9 0 122.5 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17413.8 0 122.5 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17413.6 0 122.5 19.37 1.063 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17413.5 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17413.3 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17413.2 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17413.1 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17413.0 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.9 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.8 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.7 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.6 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.5 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.4 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.4 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.4 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.2 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17412.2 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
17412.0 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.9 1 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.8 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
17411.7 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.7 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.6 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.5 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.5 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.4 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.4 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.3 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.3 0 122.5 19.37 1.062 9.500
0.000 119.2 19.37 9.500
17411.2 1 122.6 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.2 0 122.6 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.1 1 122.6 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.1 0 122.6 19.37 1.062 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17411.0 1 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.9 1 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.8 1 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.8 0 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
17410.8 0 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.7 1 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.7 1 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.7 0 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.6 1 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.6 0 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
17410.5 1 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.5 3 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
17410.4 0 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.4 0 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.4 1 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.4 2 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.4 1 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.3 0 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.3 0 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.3 3 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
17410.3 4 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
17410.3 4 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
17410.3 5 122.6 19.37 1.061 9.500
0.000 119.2 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.29E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.44E-02 | 0.22 0.00 0.01 -0.97 -0.07
1.78E-02 | -0.98 -0.04 0.01 -0.22 -0.02
3.10E+00 | -0.04 0.93 0.00 -0.03 0.36
1.66E+00 | 0.01 -0.36 0.00 -0.07 0.93
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 122.575 +/- 0.148877 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.70462 1
3 3 1 gaussian norm 1.06113 +/- 0.467247E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 119.232 +/- 0.159080 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.35636 2
8 3 3 gaussian norm 1.06113 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 17410.26 using 198 PHA bins.
Reduced chi-squared = 91.63293 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 88.377) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 88.377) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9317 photons ( 1.8963E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8909 photons ( 1.7821E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:10 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.403 +/- 5.4040E-03
Net count rate (cts/s) for file 2 2.403 +/- 5.4040E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 737691.2 using 168 PHA bins.
Reduced chi-squared = 4610.570 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21155.73 using 168 PHA bins.
Reduced chi-squared = 132.2233 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2094.13 -3 86.25 13.61 0.1394 0.8992
0.4619 86.59 12.39 0.8928
1224.95 -4 76.30 13.59 0.1405 0.8297
0.3356 79.11 11.72 0.8314
1164.18 -5 81.47 9.102 0.1102 0.8924
0.4456 81.94 9.654 0.8884
1072.18 -6 78.10 13.82 0.1423 0.8719
0.4163 80.70 12.48 0.8722
894.746 -7 80.26 8.915 0.1041 0.8570
0.4086 81.48 9.459 0.8565
858.117 -2 78.12 11.76 0.1400 0.8629
0.4021 80.73 12.21 0.8628
718.318 -3 79.35 9.625 0.1200 0.8596
0.4054 81.22 9.664 0.8591
679.386 -4 78.39 9.776 0.1405 0.8655
0.4058 80.83 11.40 0.8652
637.145 -5 78.60 9.306 0.1343 0.8609
0.4010 80.95 9.897 0.8606
633.803 -1 78.49 9.556 0.1380 0.8615
0.4001 80.87 9.992 0.8612
633.628 -2 78.52 9.558 0.1388 0.8621
0.4007 80.86 9.995 0.8618
633.592 -3 78.52 9.566 0.1389 0.8635
0.4029 80.87 9.998 0.8631
633.584 -4 78.53 9.566 0.1389 0.8639
0.4038 80.87 10.000 0.8637
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.06E-07 | 0.00 0.00 -0.27 0.53 -0.62 0.00 0.00 0.51
9.25E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
4.67E-06 | 0.00 0.01 -0.96 -0.13 0.20 0.00 0.02 -0.14
3.79E-04 | 0.02 0.01 -0.02 -0.47 -0.76 0.02 0.04 -0.45
4.16E-03 | 0.00 0.11 -0.02 -0.02 -0.03 -0.02 -0.99 -0.02
4.86E-02 | 0.81 0.56 0.00 0.01 0.02 -0.16 0.07 0.01
6.13E-02 | -0.47 0.46 0.00 -0.01 -0.01 -0.75 0.07 -0.01
5.39E-02 | 0.35 -0.68 -0.01 -0.01 -0.01 -0.64 -0.06 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 78.5283 +/- 0.228208 1
2 2 1 gaussian Sigma keV 9.56594 +/- 0.230578 1
3 3 1 gaussian norm 0.138938 +/- 0.308628E-02 1
4 4 2 powerlaw PhoIndex 0.863939 +/- 0.984703E-02 1
5 5 2 powerlaw norm 0.403771 +/- 0.158317E-01 1
6 6 3 gaussian LineE keV 80.8745 +/- 0.240553 2
7 7 3 gaussian Sigma keV 9.99998 +/- 0.694354E-01 2
8 3 3 gaussian norm 0.138938 = par 3 2
9 8 4 powerlaw PhoIndex 0.863653 +/- 0.945934E-02 2
10 5 4 powerlaw norm 0.403771 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 633.5845 using 168 PHA bins.
Reduced chi-squared = 3.959903 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.794) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.794) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9516 photons ( 1.1529E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9526 photons ( 1.1593E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
76.69408
=====best line=====
78.5285 0.228149
=====best sigma=====
9.56616 0.230572
=====norm=====
0.138935 0.308732E-02
=====phoindx=====
0.863946 0.984815E-02
=====pow_norm=====
0.403820 0.158660E-01
=====best line=====
80.8749 0.240561
=====best sigma=====
10.0040 0.681392E-01
=====norm=====
0.138935 par
=====phoindx=====
0.863680 0.946054E-02
=====pow_norm=====
0.403820 par
=====redu_chi=====
3.959864
=====area_flux=====
0.9517
=====area_flux_f=====
0.9526
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 6 1 640 2000 1256.456 0 0.138935 0.308732E-02 9.56616 0.230572 0.863946 0.984815E-02 0.403820 0.158660E-01 0.9517 640 2000 1293.9984 0 0.138935 0.308732E-02 10.0040 0.681392E-01 0.863680 0.946054E-02 0.403820 0.158660E-01 0.9526 3.959864 1
=====redu_chi=====
527.0535
=====best line=====
122.575 0.148877
=====best sigma=====
19.3655 1.70462
=====norm=====
1.06113 0.467247E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.232 0.159080
=====best sigma=====
19.3655 1.35636
=====norm=====
1.06113 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
91.63293
=====area_flux=====
0.9317
=====area_flux_f=====
0.8909
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 6 1 1600 3200 1961.2 0 1.06113 0.467247E-02 309.848 27.27392 9.50000 -1.00000 0.00000 -1.00000 0.9317 1600 3200 1907.712 0 1.06113 0.467247E-02 309.848 21.70176 9.50000 -1.00000 0.00000 -1.00000 0.8909 91.63293 1
=====redu_chi=====
132.2233
=====best line=====
78.5283 0.228208
=====best sigma=====
9.56594 0.230578
=====norm=====
0.138938 0.308628E-02
=====phoindx=====
0.863939 0.984703E-02
=====pow_norm=====
0.403771 0.158317E-01
=====best line=====
80.8745 0.240553
=====best sigma=====
9.99998 0.694354E-01
=====norm=====
0.138938 par
=====phoindx=====
0.863653 0.945934E-02
=====pow_norm=====
0.403771 par
=====redu_chi=====
3.959903
=====area_flux=====
0.9516
=====area_flux_f=====
0.9526
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 6 1 640 2000 1256.4528 0 0.138938 0.308628E-02 9.56594 0.230578 0.863939 0.984703E-02 0.403771 0.158317E-01 0.9516 640 2000 1293.992 0 0.138938 0.308628E-02 9.99998 0.694354E-01 0.863653 0.945934E-02 0.403771 0.158317E-01 0.9526 3.959903 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:11 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.649 +/- 6.6600E-03
Net count rate (cts/s) for file 2 3.649 +/- 6.6600E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 272676.2 using 168 PHA bins.
Reduced chi-squared = 1704.226 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 30091.20 using 168 PHA bins.
Reduced chi-squared = 188.0700 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7407.64 -3 85.21 17.49 0.3105 0.8868
0.6522 84.44 17.33 0.8816
5494.10 -4 68.60 19.20 0.6211 0.8497
0.4135 69.40 19.36 0.8539
3852.75 -2 69.95 4.268 0.1226 0.7468
0.4390 73.01 8.083 0.7462
1581.62 -3 68.14 7.006 0.1576 0.6960
0.3129 69.59 7.966 0.6992
1066.10 -4 64.96 9.087 0.2087 0.6265
0.2241 69.93 9.349 0.6300
681.909 -5 65.18 7.980 0.2100 0.6198
0.2260 69.82 9.059 0.6204
678.711 -6 64.97 8.246 0.2138 0.6149
0.2208 69.77 9.187 0.6160
678.526 -7 65.00 8.182 0.2128 0.6164
0.2221 69.78 9.154 0.6171
678.511 -8 64.99 8.196 0.2131 0.6160
0.2218 69.78 9.163 0.6168
678.511 -5 64.99 8.193 0.2130 0.6161
0.2219 69.78 9.161 0.6169
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.71E-07 | 0.00 0.00 -0.11 0.40 -0.83 0.00 0.00 0.38
5.69E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.83E-06 | 0.00 0.01 -0.99 -0.07 0.07 0.00 0.01 -0.08
1.42E-04 | 0.02 -0.02 0.05 -0.60 -0.56 0.02 -0.01 -0.57
1.85E-02 | -0.19 -0.82 0.00 0.00 0.00 0.01 0.53 0.00
5.04E-02 | 0.28 -0.49 -0.01 0.02 0.02 0.49 -0.67 0.02
2.46E-02 | -0.94 0.01 0.00 -0.01 -0.01 0.10 -0.32 -0.01
3.04E-02 | 0.04 -0.29 -0.01 0.00 0.00 -0.87 -0.40 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 64.9946 +/- 0.162391 1
2 2 1 gaussian Sigma keV 8.19252 +/- 0.164725 1
3 3 1 gaussian norm 0.213032 +/- 0.400832E-02 1
4 4 2 powerlaw PhoIndex 0.616054 +/- 0.828168E-02 1
5 5 2 powerlaw norm 0.221850 +/- 0.784078E-02 1
6 6 3 gaussian LineE keV 69.7811 +/- 0.187127 2
7 7 3 gaussian Sigma keV 9.16058 +/- 0.188052 2
8 3 3 gaussian norm 0.213032 = par 3 2
9 8 4 powerlaw PhoIndex 0.616869 +/- 0.791848E-02 2
10 5 4 powerlaw norm 0.221850 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 678.5106 using 168 PHA bins.
Reduced chi-squared = 4.240691 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.063) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.063) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.503 photons ( 1.8139E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.498 photons ( 1.8246E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:11 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.952 +/- 1.0431E-02
Net count rate (cts/s) for file 2 8.952 +/- 1.0431E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.302 +/- 1.2376E-02( 59.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.302 +/- 1.2376E-02( 59.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 2.0800792E+07 using 198 PHA bins.
Reduced chi-squared = 109477.9 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 119506.2 using 198 PHA bins.
Reduced chi-squared = 628.9803 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
78049.0 -3 95.04 17.86 0.6594 2.635
7.7233E-02 96.58 17.95 2.594
77856.1 2 95.10 17.88 0.6609 2.505
0.1086 96.64 17.96 2.544
75918.2 1 95.62 18.08 0.6753 2.069
0.3106 97.15 18.04 2.293
60428.6 0 100.1 19.02 0.7957 1.986
0.4507 101.3 18.46 2.215
23688.9 0 115.5 19.25 1.217 2.078
5.4952E-02 110.7 15.91 3.108
22755.7 0 115.3 19.05 1.236 3.528
5.6588E-03 110.9 15.88 9.417
20505.2 0 115.1 16.72 1.336 9.291
2.2357E-03 111.4 15.89 9.489
20394.5 -1 115.4 18.29 1.470 9.448
8.5288E-04 111.0 16.49 9.496
20027.8 0 115.4 18.20 1.461 9.476
9.9001E-05 110.8 16.35 9.499
19937.4 0 115.4 18.15 1.456 9.494
4.7479E-05 110.7 16.30 9.499
19907.3 0 115.5 18.12 1.453 9.500
2.1338E-05 110.8 16.28 9.500
19893.9 0 115.5 18.09 1.451 9.500
8.2165E-06 110.8 16.26 9.500
19885.9 0 115.6 18.07 1.449 9.500
1.6558E-06 110.8 16.25 9.500
19878.4 0 115.6 18.05 1.447 9.500
1.7476E-08 110.8 16.24 9.500
19748.8 0 115.6 17.90 1.440 9.500
1.1221E-10 110.9 16.16 9.500
19734.7 0 115.7 17.86 1.438 9.500
4.2298E-11 110.9 16.14 9.500
19728.6 0 115.7 17.84 1.436 9.500
7.4425E-12 110.9 16.13 9.500
19724.7 0 115.7 17.82 1.434 9.500
3.0927E-12 111.0 16.12 9.500
19721.6 0 115.8 17.81 1.433 9.500
9.2083E-13 111.0 16.11 9.500
19718.8 0 115.8 17.80 1.432 9.500
3.7845E-13 111.0 16.10 9.500
19716.7 0 115.8 17.79 1.431 9.500
1.0752E-13 111.0 16.09 9.500
Fit parameter 5 has pegged
19613.8 -1 116.1 17.40 1.409 9.500
0.000 111.2 15.63 9.500
Fit parameter 5 has pegged
19596.1 -2 116.1 17.55 1.409 9.500
0.000 111.2 15.82 9.500
Fit parameter 5 has pegged
19592.2 -3 116.3 17.41 1.400 9.500
0.000 111.3 15.66 9.500
Fit parameter 5 has pegged
19590.5 -4 116.2 17.50 1.405 9.500
0.000 111.3 15.75 9.500
Fit parameter 5 has pegged
19589.8 -5 116.2 17.44 1.401 9.500
0.000 111.3 15.69 9.500
Fit parameter 5 has pegged
19589.5 -6 116.2 17.47 1.403 9.500
0.000 111.3 15.73 9.500
Fit parameter 5 has pegged
19589.3 -7 116.2 17.45 1.402 9.500
0.000 111.3 15.70 9.500
Fit parameter 5 has pegged
19589.3 -8 116.2 17.46 1.403 9.500
0.000 111.3 15.72 9.500
Fit parameter 5 has pegged
19589.2 -2 116.2 17.46 1.403 9.500
0.000 111.3 15.71 9.500
Fit parameter 5 has pegged
19589.1 -2 116.2 17.46 1.402 9.500
0.000 111.3 15.71 9.500
Fit parameter 5 has pegged
19589.1 3 116.2 17.46 1.402 9.500
0.000 111.3 15.71 9.500
19589.1 3 116.2 17.46 1.402 9.500
0.000 111.3 15.71 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.94E-05 | -0.01 0.01 -1.00 -0.02 0.04
2.84E-04 | 0.01 -0.01 0.04 0.13 0.99
2.07E-03 | -0.38 -0.93 -0.01 -0.02 0.00
2.62E-02 | 0.75 -0.31 -0.02 0.58 -0.08
1.38E-02 | 0.55 -0.21 0.01 -0.81 0.10
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.234 +/- 0.138159 1
2 2 1 gaussian Sigma keV 17.4553 +/- 0.703323E-01 1
3 3 1 gaussian norm 1.40227 +/- 0.603466E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 111.310 +/- 0.133021 2
7 7 3 gaussian Sigma keV 15.7113 +/- 0.247115E-01 2
8 3 3 gaussian norm 1.40227 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 19589.14 using 198 PHA bins.
Reduced chi-squared = 103.1007 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 99.437) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 99.437) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.155 photons ( 2.2527E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.071 photons ( 2.0196E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:11 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.649 +/- 6.6600E-03
Net count rate (cts/s) for file 2 3.649 +/- 6.6600E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 367208.9 using 168 PHA bins.
Reduced chi-squared = 2295.055 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 49809.18 using 168 PHA bins.
Reduced chi-squared = 311.3074 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
19243.6 -3 88.28 13.43 0.1021 0.6829
0.3834 87.42 13.94 0.6806
5105.44 -4 65.32 19.20 0.3275 0.8243
0.4946 60.21 19.15 0.8193
4116.68 0 67.97 7.920 0.3153 0.8228
0.4924 68.23 19.28 0.8200
2802.80 -1 66.79 8.525 0.2223 0.8063
0.4962 75.73 7.478 0.8126
1220.67 -2 66.03 7.764 0.1890 0.7660
0.4266 72.58 9.175 0.7678
948.237 -2 65.60 7.881 0.1977 0.7339
0.3701 70.45 9.012 0.7359
837.897 -2 65.51 7.801 0.1974 0.7093
0.3342 70.48 8.624 0.7108
777.828 -2 65.38 7.908 0.2008 0.6903
0.3077 70.31 8.784 0.6917
741.259 -2 65.31 7.936 0.2026 0.6754
0.2886 70.21 8.829 0.6767
730.289 -3 65.06 8.167 0.2102 0.6317
0.2350 69.91 9.085 0.6343
678.802 -4 64.99 8.205 0.2131 0.6154
0.2214 69.78 9.166 0.6168
678.511 -5 65.00 8.191 0.2130 0.6161
0.2218 69.78 9.160 0.6169
678.510 -6 64.99 8.194 0.2131 0.6160
0.2218 69.78 9.161 0.6168
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.72E-07 | 0.00 0.00 -0.11 0.40 -0.83 0.00 0.00 0.38
5.69E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.83E-06 | 0.00 0.01 -0.99 -0.07 0.07 0.00 0.01 -0.08
1.42E-04 | 0.02 -0.02 0.05 -0.60 -0.56 0.02 -0.01 -0.57
1.85E-02 | -0.19 -0.82 0.00 0.00 0.00 0.01 0.53 0.00
5.04E-02 | 0.28 -0.49 -0.01 0.02 0.02 0.49 -0.67 0.02
2.46E-02 | -0.94 0.01 0.00 -0.01 -0.01 0.10 -0.32 -0.01
3.04E-02 | 0.04 -0.29 -0.01 0.00 0.00 -0.87 -0.40 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 64.9937 +/- 0.162296 1
2 2 1 gaussian Sigma keV 8.19377 +/- 0.164614 1
3 3 1 gaussian norm 0.213053 +/- 0.400553E-02 1
4 4 2 powerlaw PhoIndex 0.616023 +/- 0.827875E-02 1
5 5 2 powerlaw norm 0.221821 +/- 0.784050E-02 1
6 6 3 gaussian LineE keV 69.7807 +/- 0.187104 2
7 7 3 gaussian Sigma keV 9.16122 +/- 0.188002 2
8 3 3 gaussian norm 0.213053 = par 3 2
9 8 4 powerlaw PhoIndex 0.616842 +/- 0.791570E-02 2
10 5 4 powerlaw norm 0.221821 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 678.5102 using 168 PHA bins.
Reduced chi-squared = 4.240689 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.063) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.063) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.503 photons ( 1.8139E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.498 photons ( 1.8246E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
188.0700
=====best line=====
64.9946 0.162391
=====best sigma=====
8.19252 0.164725
=====norm=====
0.213032 0.400832E-02
=====phoindx=====
0.616054 0.828168E-02
=====pow_norm=====
0.221850 0.784078E-02
=====best line=====
69.7811 0.187127
=====best sigma=====
9.16058 0.188052
=====norm=====
0.213032 par
=====phoindx=====
0.616869 0.791848E-02
=====pow_norm=====
0.221850 par
=====redu_chi=====
4.240691
=====area_flux=====
1.503
=====area_flux_f=====
1.498
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 7 1 640 2000 1039.9136 0 0.213032 0.400832E-02 8.19252 0.164725 0.616054 0.828168E-02 0.221850 0.784078E-02 1.503 640 2000 1116.4976 0 0.213032 0.400832E-02 9.16058 0.188052 0.616869 0.791848E-02 0.221850 0.784078E-02 1.498 4.240691 1
=====redu_chi=====
628.9803
=====best line=====
116.234 0.138159
=====best sigma=====
17.4553 0.703323E-01
=====norm=====
1.40227 0.603466E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.310 0.133021
=====best sigma=====
15.7113 0.247115E-01
=====norm=====
1.40227 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
103.1007
=====area_flux=====
1.155
=====area_flux_f=====
1.071
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 7 1 1600 3200 1859.744 0 1.40227 0.603466E-02 279.2848 1.1253168 9.50000 -1.00000 0.00000 -1.00000 1.155 1600 3200 1780.96 0 1.40227 0.603466E-02 251.3808 0.395384 9.50000 -1.00000 0.00000 -1.00000 1.071 103.1007 1
=====redu_chi=====
311.3074
=====best line=====
64.9937 0.162296
=====best sigma=====
8.19377 0.164614
=====norm=====
0.213053 0.400553E-02
=====phoindx=====
0.616023 0.827875E-02
=====pow_norm=====
0.221821 0.784050E-02
=====best line=====
69.7807 0.187104
=====best sigma=====
9.16122 0.188002
=====norm=====
0.213053 par
=====phoindx=====
0.616842 0.791570E-02
=====pow_norm=====
0.221821 par
=====redu_chi=====
4.240689
=====area_flux=====
1.503
=====area_flux_f=====
1.498
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 7 1 640 2000 1039.8992 0 0.213053 0.400553E-02 8.19377 0.164614 0.616023 0.827875E-02 0.221821 0.784050E-02 1.503 640 2000 1116.4912 0 0.213053 0.400553E-02 9.16122 0.188002 0.616842 0.791570E-02 0.221821 0.784050E-02 1.498 4.240689 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:11 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.408 +/- 6.4357E-03
Net count rate (cts/s) for file 2 3.408 +/- 6.4357E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 328354.5 using 168 PHA bins.
Reduced chi-squared = 2052.216 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 22725.17 using 168 PHA bins.
Reduced chi-squared = 142.0323 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5540.60 -3 83.32 17.20 0.3336 0.9931
0.7581 83.13 17.10 0.9868
2273.83 -2 75.86 18.61 0.3579 0.9509
0.7210 76.05 18.33 0.9527
2046.18 0 76.03 15.78 0.3526 0.9510
0.7202 76.29 16.36 0.9523
1402.01 -1 76.41 12.02 0.2692 0.9400
0.7389 77.04 10.47 0.9406
897.503 -2 75.78 9.936 0.1986 0.9030
0.6763 76.56 9.932 0.9043
780.352 -2 74.97 9.321 0.1984 0.8814
0.6161 76.23 9.265 0.8829
737.545 -2 74.79 9.214 0.1976 0.8642
0.5736 76.10 9.289 0.8655
719.096 -3 74.52 9.178 0.1959 0.8188
0.4677 75.86 9.252 0.8213
673.778 -4 74.43 9.135 0.1952 0.8043
0.4453 75.77 9.236 0.8054
673.616 -5 74.42 9.128 0.1951 0.8043
0.4450 75.76 9.234 0.8050
673.616 -6 74.42 9.127 0.1951 0.8043
0.4450 75.76 9.235 0.8050
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.97E-07 | 0.00 0.00 -0.19 0.57 -0.59 0.00 0.00 0.54
6.47E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.26E-06 | 0.00 0.01 -0.98 -0.10 0.12 0.00 0.01 -0.11
2.85E-04 | 0.02 0.00 -0.01 -0.44 -0.80 0.02 0.00 -0.42
2.28E-02 | -0.10 -0.71 0.00 0.00 0.00 0.10 0.69 0.00
4.76E-02 | 0.32 -0.61 -0.01 0.00 0.01 0.34 -0.64 0.00
3.25E-02 | 0.74 -0.08 0.00 0.00 0.00 -0.65 0.11 0.00
3.38E-02 | 0.58 0.33 0.00 0.01 0.02 0.67 0.33 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 74.4153 +/- 0.185434 1
2 2 1 gaussian Sigma keV 9.12749 +/- 0.182744 1
3 3 1 gaussian norm 0.195146 +/- 0.342882E-02 1
4 4 2 powerlaw PhoIndex 0.804313 +/- 0.782641E-02 1
5 5 2 powerlaw norm 0.444998 +/- 0.142354E-01 1
6 6 3 gaussian LineE keV 75.7609 +/- 0.186376 2
7 7 3 gaussian Sigma keV 9.23471 +/- 0.184699 2
8 3 3 gaussian norm 0.195146 = par 3 2
9 8 4 powerlaw PhoIndex 0.804999 +/- 0.750366E-02 2
10 5 4 powerlaw norm 0.444998 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 673.6160 using 168 PHA bins.
Reduced chi-squared = 4.210100 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.034) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.034) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.351 photons ( 1.6317E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.347 photons ( 1.6317E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:11 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.050 +/- 9.8916E-03
Net count rate (cts/s) for file 2 8.050 +/- 9.8916E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.643 +/- 1.1801E-02( 57.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.643 +/- 1.1801E-02( 57.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.5832027E+07 using 198 PHA bins.
Reduced chi-squared = 83326.46 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 113908.8 using 198 PHA bins.
Reduced chi-squared = 599.5201 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
70279.3 -3 109.3 18.72 0.4822 2.807
0.1032 100.2 18.73 2.751
40762.7 -2 91.94 19.31 2.141 6.677
4.3624E-02 96.98 19.30 8.579
38674.0 -1 94.12 19.35 2.144 9.321
3.0086E-03 97.64 19.36 9.260
37080.2 -1 96.05 19.36 2.125 3.090
4.2627E-04 98.27 19.36 9.472
35793.3 -1 97.36 19.36 2.091 6.969
2118. 98.98 19.37 9.491
34459.1 -1 98.98 19.36 2.063 8.626
951.3 99.69 19.37 9.496
33583.6 -1 100.2 19.37 2.048 9.492
465.8 100.2 19.37 9.499
32434.2 -1 101.3 19.37 2.012 9.499
228.4 100.9 19.37 9.500
30904.2 -1 102.6 19.37 1.960 9.500
0.4235 101.8 19.37 9.500
29539.4 -1 103.7 19.37 1.917 9.500
0.1695 102.7 19.37 9.500
27888.1 -1 105.0 19.37 1.860 9.500
4.0706E-02 103.7 19.37 9.500
26401.5 -1 106.3 19.37 1.811 9.500
5.6786E-03 104.7 19.37 9.500
24947.3 -1 107.5 19.37 1.759 9.500
2.7102E-03 105.8 19.37 9.500
23733.2 -1 108.6 19.37 1.713 9.500
8.4244E-04 106.7 19.37 9.500
22469.9 -1 109.8 19.37 1.655 9.500
2.8523E-04 107.8 19.37 9.500
21607.5 -1 110.9 19.37 1.611 9.500
1.3507E-04 108.6 19.37 9.500
21070.3 -1 111.7 19.37 1.579 9.500
5.7733E-05 109.3 19.37 9.500
20452.8 -1 112.9 19.37 1.524 9.500
3.9971E-06 110.3 19.37 9.500
20307.2 -1 113.5 19.37 1.496 9.500
4.0168E-08 110.9 19.37 9.500
20286.9 -1 113.6 19.37 1.486 9.500
6.2806E-09 111.1 19.37 9.500
20273.6 -1 113.7 19.37 1.482 9.500
2.0037E-09 111.2 19.37 9.500
20245.0 -1 113.8 19.37 1.480 9.500
9.4823E-10 111.3 19.34 9.500
20155.7 -1 113.9 19.37 1.473 9.500
4.2314E-10 111.4 19.27 9.500
20095.5 -1 114.0 19.37 1.469 9.500
1.6445E-10 111.5 19.21 9.500
19597.8 0 114.4 19.37 1.448 9.500
5.1844E-11 111.3 18.87 9.500
19473.8 0 114.7 19.37 1.433 9.500
2.4725E-11 111.5 18.80 9.500
19397.9 0 115.0 19.37 1.422 9.500
1.1207E-11 111.6 18.75 9.500
19345.0 0 115.2 19.37 1.413 9.500
4.4761E-12 111.8 18.69 9.500
19308.2 0 115.4 19.37 1.407 9.500
1.1078E-12 111.9 18.64 9.500
19279.0 0 115.5 19.37 1.401 9.500
2.6650E-13 112.1 18.59 9.500
Fit parameter 5 has pegged
19253.6 -1 115.3 19.37 1.382 9.500
0.000 112.5 17.74 9.500
Fit parameter 5 has pegged
19201.9 -1 115.1 19.37 1.386 9.500
0.000 112.5 18.17 9.500
Fit parameter 5 has pegged
19198.3 -1 115.1 19.37 1.384 9.500
0.000 112.6 18.06 9.500
Fit parameter 5 has pegged
19165.2 0 115.3 19.37 1.379 9.500
0.000 112.6 18.07 9.500
Fit parameter 5 has pegged
19144.9 0 115.5 19.37 1.375 9.500
0.000 112.6 18.06 9.500
Fit parameter 5 has pegged
19132.1 0 115.6 19.37 1.371 9.500
0.000 112.7 18.05 9.500
Fit parameter 5 has pegged
19123.2 0 115.7 19.37 1.369 9.500
0.000 112.7 18.03 9.500
Fit parameter 5 has pegged
19117.2 0 115.7 19.37 1.367 9.500
0.000 112.8 18.02 9.500
Fit parameter 5 has pegged
19113.7 0 115.8 19.37 1.365 9.500
0.000 112.8 18.01 9.500
Fit parameter 5 has pegged
19110.1 0 115.8 19.37 1.364 9.500
0.000 112.8 18.00 9.500
Fit parameter 5 has pegged
19108.4 0 115.8 19.37 1.363 9.500
0.000 112.9 17.99 9.500
Fit parameter 5 has pegged
19107.1 0 115.8 19.37 1.362 9.500
0.000 112.9 17.98 9.500
Fit parameter 5 has pegged
19105.4 0 115.9 19.37 1.361 9.500
0.000 112.9 17.97 9.500
Fit parameter 5 has pegged
19104.2 0 115.9 19.37 1.360 9.500
0.000 112.9 17.96 9.500
Fit parameter 5 has pegged
19103.3 0 115.9 19.37 1.360 9.500
0.000 112.9 17.96 9.500
Fit parameter 5 has pegged
19103.2 0 115.9 19.37 1.360 9.500
0.000 112.9 17.95 9.500
Fit parameter 5 has pegged
19102.2 0 115.9 19.37 1.359 9.500
0.000 112.9 17.95 9.500
Fit parameter 5 has pegged
19100.9 0 115.9 19.37 1.359 9.500
0.000 113.0 17.95 9.500
Fit parameter 5 has pegged
19100.5 0 115.9 19.37 1.358 9.500
0.000 113.0 17.94 9.500
Fit parameter 5 has pegged
19100.1 0 115.9 19.37 1.358 9.500
0.000 113.0 17.94 9.500
Fit parameter 5 has pegged
19098.8 0 115.9 19.37 1.358 9.500
0.000 113.0 17.94 9.500
Fit parameter 5 has pegged
19098.8 0 115.9 19.37 1.357 9.500
0.000 113.0 17.94 9.500
Fit parameter 5 has pegged
19097.8 0 116.0 19.37 1.357 9.500
0.000 113.0 17.94 9.500
Fit parameter 5 has pegged
19096.8 0 116.0 19.37 1.357 9.500
0.000 113.0 17.94 9.500
Fit parameter 5 has pegged
19095.8 0 116.0 19.37 1.356 9.500
0.000 113.0 17.94 9.500
Fit parameter 5 has pegged
19095.2 0 116.0 19.37 1.356 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19094.5 0 116.0 19.37 1.356 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19093.7 0 116.0 19.37 1.356 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19093.3 0 116.1 19.37 1.355 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19092.7 0 116.1 19.37 1.355 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19092.5 0 116.1 19.37 1.355 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19091.9 0 116.1 19.37 1.354 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19091.6 0 116.1 19.37 1.354 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19091.2 0 116.1 19.37 1.354 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19090.9 0 116.1 19.37 1.354 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19090.7 0 116.1 19.37 1.354 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19090.4 0 116.1 19.37 1.353 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19090.1 0 116.2 19.37 1.353 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19089.9 0 116.2 19.37 1.353 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19089.6 0 116.2 19.37 1.353 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19089.6 1 116.2 19.37 1.353 9.500
0.000 113.0 17.93 9.500
19089.3 0 116.2 19.37 1.352 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19089.1 0 116.2 19.37 1.352 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19089.1 0 116.2 19.37 1.352 9.500
0.000 113.0 17.93 9.500
Fit parameter 5 has pegged
19088.9 0 116.2 19.37 1.352 9.500
0.000 113.0 17.92 9.500
Fit parameter 5 has pegged
19088.8 0 116.2 19.37 1.352 9.500
0.000 113.0 17.92 9.500
Fit parameter 5 has pegged
19088.6 0 116.2 19.37 1.352 9.500
0.000 113.0 17.92 9.500
Fit parameter 5 has pegged
19088.6 3 116.2 19.37 1.352 9.500
0.000 113.0 17.92 9.500
19088.6 4 116.2 19.37 1.352 9.500
0.000 113.0 17.92 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.88E-05 | -0.01 0.00 -1.00 -0.01 0.01
4.48E-03 | 0.00 0.00 0.00 -0.55 -0.84
1.33E-02 | -0.97 -0.07 0.01 0.19 -0.12
2.92E-02 | 0.22 0.06 -0.02 0.81 -0.53
1.77E+00 | -0.08 1.00 0.00 -0.03 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.210 +/- 0.162246 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.32299 1
3 3 1 gaussian norm 1.35155 +/- 0.622107E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.042 +/- 0.152578 2
7 7 3 gaussian Sigma keV 17.9210 +/- 0.111770 2
8 3 3 gaussian norm 1.35155 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 19088.55 using 198 PHA bins.
Reduced chi-squared = 100.4661 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 96.896) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 96.896) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.079 photons ( 2.1276E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.036 photons ( 1.9952E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:12 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.408 +/- 6.4357E-03
Net count rate (cts/s) for file 2 3.408 +/- 6.4357E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 418984.8 using 168 PHA bins.
Reduced chi-squared = 2618.655 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 38784.68 using 168 PHA bins.
Reduced chi-squared = 242.4043 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4518.81 -3 86.15 14.95 0.1975 0.9110
0.6725 85.80 14.63 0.9045
3045.82 -4 70.78 18.14 0.2956 0.8401
0.4478 71.12 17.65 0.8436
1702.21 0 73.45 11.80 0.3070 0.8367
0.4547 73.75 15.24 0.8386
774.918 -1 74.56 10.39 0.2257 0.8259
0.4747 75.91 9.868 0.8276
708.755 -2 74.77 9.832 0.1915 0.8191
0.4757 75.90 9.144 0.8198
675.233 -3 74.55 8.998 0.1940 0.8087
0.4543 75.79 9.209 0.8099
673.779 -4 74.39 9.178 0.1957 0.8042
0.4448 75.76 9.255 0.8050
673.630 -5 74.43 9.111 0.1949 0.8044
0.4452 75.76 9.227 0.8051
673.617 -6 74.41 9.133 0.1952 0.8043
0.4449 75.76 9.238 0.8050
673.616 -7 74.42 9.125 0.1951 0.8043
0.4450 75.76 9.234 0.8050
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.97E-07 | 0.00 0.00 -0.19 0.57 -0.59 0.00 0.00 0.54
6.47E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.27E-06 | 0.00 0.01 -0.98 -0.10 0.12 0.00 0.01 -0.11
2.85E-04 | 0.02 0.00 -0.01 -0.44 -0.80 0.02 0.00 -0.42
2.28E-02 | -0.10 -0.71 0.00 0.00 0.00 0.10 0.69 0.00
4.76E-02 | 0.32 -0.61 -0.01 0.00 0.01 0.34 -0.63 0.00
3.25E-02 | 0.74 -0.09 0.00 0.00 0.00 -0.66 0.11 0.00
3.39E-02 | 0.58 0.33 0.00 0.01 0.02 0.66 0.33 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 74.4164 +/- 0.185541 1
2 2 1 gaussian Sigma keV 9.12538 +/- 0.182856 1
3 3 1 gaussian norm 0.195120 +/- 0.343067E-02 1
4 4 2 powerlaw PhoIndex 0.804323 +/- 0.782765E-02 1
5 5 2 powerlaw norm 0.445024 +/- 0.142353E-01 1
6 6 3 gaussian LineE keV 75.7611 +/- 0.186404 2
7 7 3 gaussian Sigma keV 9.23366 +/- 0.184749 2
8 3 3 gaussian norm 0.195120 = par 3 2
9 8 4 powerlaw PhoIndex 0.805007 +/- 0.750482E-02 2
10 5 4 powerlaw norm 0.445024 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 673.6160 using 168 PHA bins.
Reduced chi-squared = 4.210100 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.034) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.034) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.351 photons ( 1.6317E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.347 photons ( 1.6317E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
142.0323
=====best line=====
74.4153 0.185434
=====best sigma=====
9.12749 0.182744
=====norm=====
0.195146 0.342882E-02
=====phoindx=====
0.804313 0.782641E-02
=====pow_norm=====
0.444998 0.142354E-01
=====best line=====
75.7609 0.186376
=====best sigma=====
9.23471 0.184699
=====norm=====
0.195146 par
=====phoindx=====
0.804999 0.750366E-02
=====pow_norm=====
0.444998 par
=====redu_chi=====
4.210100
=====area_flux=====
1.351
=====area_flux_f=====
1.347
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 8 1 640 2000 1190.6448 0 0.195146 0.342882E-02 9.12749 0.182744 0.804313 0.782641E-02 0.444998 0.142354E-01 1.351 640 2000 1212.1744 0 0.195146 0.342882E-02 9.23471 0.184699 0.804999 0.750366E-02 0.444998 0.142354E-01 1.347 4.210100 1
=====redu_chi=====
599.5201
=====best line=====
116.210 0.162246
=====best sigma=====
19.3655 1.32299
=====norm=====
1.35155 0.622107E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.042 0.152578
=====best sigma=====
17.9210 0.111770
=====norm=====
1.35155 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
100.4661
=====area_flux=====
1.079
=====area_flux_f=====
1.036
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 8 1 1600 3200 1859.36 0 1.35155 0.622107E-02 309.848 21.16784 9.50000 -1.00000 0.00000 -1.00000 1.079 1600 3200 1808.672 0 1.35155 0.622107E-02 286.736 1.78832 9.50000 -1.00000 0.00000 -1.00000 1.036 100.4661 1
=====redu_chi=====
242.4043
=====best line=====
74.4164 0.185541
=====best sigma=====
9.12538 0.182856
=====norm=====
0.195120 0.343067E-02
=====phoindx=====
0.804323 0.782765E-02
=====pow_norm=====
0.445024 0.142353E-01
=====best line=====
75.7611 0.186404
=====best sigma=====
9.23366 0.184749
=====norm=====
0.195120 par
=====phoindx=====
0.805007 0.750482E-02
=====pow_norm=====
0.445024 par
=====redu_chi=====
4.210100
=====area_flux=====
1.351
=====area_flux_f=====
1.347
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 8 1 640 2000 1190.6624 0 0.195120 0.343067E-02 9.12538 0.182856 0.804323 0.782765E-02 0.445024 0.142353E-01 1.351 640 2000 1212.1776 0 0.195120 0.343067E-02 9.23366 0.184749 0.805007 0.750482E-02 0.445024 0.142353E-01 1.347 4.210100 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:12 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.385 +/- 5.3839E-03
Net count rate (cts/s) for file 2 2.385 +/- 5.3839E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 682548.1 using 168 PHA bins.
Reduced chi-squared = 4265.926 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15445.94 using 168 PHA bins.
Reduced chi-squared = 96.53712 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5361.20 -3 83.48 16.78 0.2110 1.029
0.5884 83.76 16.57 1.019
1239.68 -3 76.15 14.99 0.1718 0.8763
0.3975 77.13 14.50 0.8813
993.158 -2 77.54 8.468 9.4314E-02 0.8735
0.4358 78.40 9.010 0.8710
928.430 -3 75.64 10.87 0.1388 0.8937
0.4540 77.28 13.67 0.8929
738.825 -4 76.86 9.686 0.1205 0.9046
0.4846 78.54 9.395 0.9039
707.629 -5 76.06 9.390 0.1384 0.8976
0.4632 77.50 11.71 0.8979
652.806 -6 76.19 9.179 0.1345 0.8973
0.4640 77.77 9.915 0.8969
651.847 -1 76.14 9.319 0.1370 0.8975
0.4633 77.58 10.22 0.8973
650.824 -2 76.15 9.331 0.1375 0.8973
0.4626 77.57 10.00 0.8971
650.765 -3 76.15 9.336 0.1377 0.8965
0.4610 77.55 10.09 0.8963
650.758 -1 76.15 9.334 0.1376 0.8965
0.4610 77.55 10.03 0.8963
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.59E-07 | 0.00 0.00 -0.29 0.55 -0.57 0.00 0.00 0.54
9.31E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
4.80E-06 | 0.00 0.01 -0.96 -0.16 0.18 0.00 0.02 -0.17
4.33E-04 | 0.02 0.01 -0.01 -0.43 -0.80 0.02 0.03 -0.41
2.85E-03 | 0.00 0.09 -0.02 -0.01 -0.02 -0.02 -1.00 -0.02
4.55E-02 | 0.74 0.67 0.01 0.01 0.02 -0.03 0.06 0.01
6.56E-02 | 0.35 -0.35 0.00 0.01 0.02 0.86 -0.05 0.01
5.30E-02 | -0.57 0.65 0.01 0.00 0.00 0.50 0.05 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.1461 +/- 0.224675 1
2 2 1 gaussian Sigma keV 9.33352 +/- 0.225419 1
3 3 1 gaussian norm 0.137627 +/- 0.303477E-02 1
4 4 2 powerlaw PhoIndex 0.896519 +/- 0.955025E-02 1
5 5 2 powerlaw norm 0.460976 +/- 0.177724E-01 1
6 6 3 gaussian LineE keV 77.5548 +/- 0.249694 2
7 7 3 gaussian Sigma keV 10.0285 +/- 0.573304E-01 2
8 3 3 gaussian norm 0.137627 = par 3 2
9 8 4 powerlaw PhoIndex 0.896328 +/- 0.916691E-02 2
10 5 4 powerlaw norm 0.460976 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 650.7575 using 168 PHA bins.
Reduced chi-squared = 4.067235 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.897) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.897) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9451 photons ( 1.1364E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9457 photons ( 1.1403E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:12 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.489 +/- 8.1677E-03
Net count rate (cts/s) for file 2 5.489 +/- 8.1677E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.104 +/- 9.7825E-03( 56.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.104 +/- 9.7825E-03( 56.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.5333548E+07 using 198 PHA bins.
Reduced chi-squared = 80702.88 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 87119.84 using 198 PHA bins.
Reduced chi-squared = 458.5255 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
47365.5 -3 116.3 19.26 0.3595 2.768
0.1107 108.5 19.26 2.718
17857.8 -2 109.3 19.32 1.203 9.435
4.3234E-02 112.6 19.32 8.613
15783.4 -3 112.1 19.36 1.140 9.482
8.7527E-03 111.4 19.35 2.591
15682.5 -1 113.0 19.36 1.154 9.494
4.1668E-03 111.4 19.36 8.133
15253.0 -1 113.8 19.37 1.132 9.498
1.0332E-03 111.2 19.36 9.356
15114.8 -1 114.2 19.37 1.125 9.499
2.3488E-04 111.3 19.37 9.476
15030.0 -1 114.5 19.37 1.121 9.500
2.7337E-05 111.4 19.37 9.491
14979.2 -1 114.6 19.37 1.118 9.500
1.2909E-05 111.4 19.37 9.500
14957.1 -1 114.7 19.37 1.116 9.500
5.4517E-06 111.5 19.37 9.500
14924.8 -1 114.8 19.37 1.114 9.500
1.7256E-06 111.6 19.37 9.500
14915.7 -1 114.8 19.37 1.113 9.500
7.8139E-07 111.6 19.37 9.500
14655.2 0 115.3 19.37 1.090 9.500
2.9952E-07 111.7 19.35 9.500
14297.9 0 116.3 19.37 1.053 9.500
8.1115E-09 112.3 19.14 9.500
14234.6 0 116.5 19.37 1.046 9.500
2.6408E-09 112.5 19.05 9.500
14186.5 0 116.7 19.37 1.040 9.500
1.2738E-09 112.7 18.98 9.500
14153.1 0 116.9 19.37 1.035 9.500
5.8958E-10 112.9 18.93 9.500
14123.1 0 117.0 19.37 1.031 9.500
2.5026E-10 113.0 18.86 9.500
14102.2 0 117.1 19.37 1.028 9.500
8.0040E-11 113.2 18.81 9.500
14086.0 0 117.2 19.37 1.025 9.500
3.7625E-11 113.3 18.77 9.500
14073.4 0 117.2 19.37 1.022 9.500
1.6347E-11 113.4 18.74 9.500
14062.6 0 117.3 19.37 1.020 9.500
5.7369E-12 113.5 18.71 9.500
14054.9 0 117.3 19.37 1.019 9.500
4.3483E-13 113.5 18.68 9.500
14047.7 0 117.4 19.37 1.017 9.500
1.0394E-13 113.6 18.65 9.500
Fit parameter 5 has pegged
14016.6 0 117.4 19.37 1.012 9.500
0.000 113.6 18.47 9.500
Fit parameter 5 has pegged
14012.4 0 117.3 19.37 1.009 9.500
0.000 113.7 18.42 9.500
Fit parameter 5 has pegged
14010.2 0 117.3 19.37 1.008 9.500
0.000 113.7 18.40 9.500
Fit parameter 5 has pegged
14007.5 0 117.3 19.37 1.007 9.500
0.000 113.8 18.38 9.500
Fit parameter 5 has pegged
14004.8 0 117.3 19.37 1.006 9.500
0.000 113.8 18.36 9.500
Fit parameter 5 has pegged
14003.5 0 117.3 19.37 1.005 9.500
0.000 113.8 18.35 9.500
Fit parameter 5 has pegged
14002.7 0 117.3 19.37 1.005 9.500
0.000 113.9 18.34 9.500
Fit parameter 5 has pegged
14001.2 0 117.4 19.37 1.004 9.500
0.000 113.9 18.33 9.500
Fit parameter 5 has pegged
14000.4 0 117.4 19.37 1.004 9.500
0.000 113.9 18.32 9.500
Fit parameter 5 has pegged
13999.5 0 117.4 19.37 1.004 9.500
0.000 113.9 18.32 9.500
Fit parameter 5 has pegged
13998.3 0 117.4 19.37 1.003 9.500
0.000 114.0 18.31 9.500
Fit parameter 5 has pegged
13996.8 0 117.4 19.37 1.003 9.500
0.000 114.0 18.31 9.500
Fit parameter 5 has pegged
13993.8 0 117.4 19.37 1.002 9.500
0.000 114.0 18.31 9.500
Fit parameter 5 has pegged
13991.0 0 117.5 19.37 1.002 9.500
0.000 114.0 18.31 9.500
Fit parameter 5 has pegged
13988.4 0 117.5 19.37 1.001 9.500
0.000 114.0 18.31 9.500
Fit parameter 5 has pegged
13986.1 0 117.5 19.37 1.001 9.500
0.000 114.0 18.30 9.500
Fit parameter 5 has pegged
13984.1 0 117.6 19.37 1.000 9.500
0.000 114.0 18.30 9.500
Fit parameter 5 has pegged
13982.2 0 117.6 19.37 0.9996 9.500
0.000 114.0 18.30 9.500
Fit parameter 5 has pegged
13980.5 0 117.6 19.37 0.9992 9.500
0.000 114.0 18.30 9.500
Fit parameter 5 has pegged
13979.1 0 117.7 19.37 0.9988 9.500
0.000 114.0 18.30 9.500
Fit parameter 5 has pegged
13977.6 0 117.7 19.37 0.9983 9.500
0.000 114.0 18.30 9.500
Fit parameter 5 has pegged
13976.4 0 117.7 19.37 0.9979 9.500
0.000 114.0 18.30 9.500
Fit parameter 5 has pegged
13975.3 0 117.7 19.37 0.9976 9.500
0.000 114.0 18.29 9.500
Fit parameter 5 has pegged
13974.2 0 117.7 19.37 0.9972 9.500
0.000 114.0 18.29 9.500
Fit parameter 5 has pegged
13973.3 0 117.8 19.37 0.9968 9.500
0.000 114.0 18.29 9.500
Fit parameter 5 has pegged
13972.4 0 117.8 19.37 0.9965 9.500
0.000 114.0 18.29 9.500
Fit parameter 5 has pegged
13971.6 0 117.8 19.37 0.9962 9.500
0.000 114.0 18.29 9.500
Fit parameter 5 has pegged
13970.8 0 117.8 19.37 0.9959 9.500
0.000 114.0 18.29 9.500
Fit parameter 5 has pegged
13970.1 0 117.8 19.37 0.9956 9.500
0.000 114.0 18.28 9.500
Fit parameter 5 has pegged
13969.5 0 117.8 19.37 0.9953 9.500
0.000 114.0 18.28 9.500
Fit parameter 5 has pegged
13968.9 0 117.9 19.37 0.9950 9.500
0.000 114.0 18.28 9.500
Fit parameter 5 has pegged
13968.4 0 117.9 19.37 0.9947 9.500
0.000 114.0 18.28 9.500
Fit parameter 5 has pegged
13967.9 0 117.9 19.37 0.9945 9.500
0.000 114.0 18.28 9.500
Fit parameter 5 has pegged
13967.4 0 117.9 19.37 0.9942 9.500
0.000 114.1 18.28 9.500
Fit parameter 5 has pegged
13967.0 0 117.9 19.37 0.9940 9.500
0.000 114.1 18.27 9.500
Fit parameter 5 has pegged
13966.6 0 117.9 19.37 0.9938 9.500
0.000 114.1 18.27 9.500
Fit parameter 5 has pegged
13966.3 0 117.9 19.37 0.9935 9.500
0.000 114.1 18.27 9.500
Fit parameter 5 has pegged
13966.0 0 117.9 19.37 0.9933 9.500
0.000 114.1 18.27 9.500
Fit parameter 5 has pegged
13965.6 0 117.9 19.37 0.9931 9.500
0.000 114.1 18.27 9.500
Fit parameter 5 has pegged
13965.3 0 118.0 19.37 0.9929 9.500
0.000 114.1 18.26 9.500
Fit parameter 5 has pegged
13965.0 0 118.0 19.37 0.9927 9.500
0.000 114.1 18.26 9.500
Fit parameter 5 has pegged
13964.8 0 118.0 19.37 0.9926 9.500
0.000 114.1 18.26 9.500
Fit parameter 5 has pegged
13964.5 0 118.0 19.37 0.9924 9.500
0.000 114.1 18.26 9.500
Fit parameter 5 has pegged
13964.2 0 118.0 19.37 0.9922 9.500
0.000 114.1 18.26 9.500
Fit parameter 5 has pegged
13964.0 0 118.0 19.37 0.9920 9.500
0.000 114.1 18.26 9.500
Fit parameter 5 has pegged
13963.7 0 118.0 19.37 0.9919 9.500
0.000 114.1 18.25 9.500
Fit parameter 5 has pegged
13963.7 0 118.0 19.37 0.9917 9.500
0.000 114.1 18.25 9.500
Fit parameter 5 has pegged
13963.5 0 118.0 19.37 0.9916 9.500
0.000 114.1 18.25 9.500
Fit parameter 5 has pegged
13963.2 0 118.0 19.37 0.9914 9.500
0.000 114.1 18.25 9.500
Fit parameter 5 has pegged
13963.1 0 118.0 19.37 0.9913 9.500
0.000 114.1 18.25 9.500
Fit parameter 5 has pegged
13963.0 0 118.0 19.37 0.9912 9.500
0.000 114.1 18.25 9.500
Fit parameter 5 has pegged
13962.8 0 118.0 19.37 0.9910 9.500
0.000 114.1 18.24 9.500
Fit parameter 5 has pegged
13962.6 0 118.0 19.37 0.9909 9.500
0.000 114.1 18.24 9.500
Fit parameter 5 has pegged
13962.5 0 118.0 19.37 0.9908 9.500
0.000 114.1 18.24 9.500
Fit parameter 5 has pegged
13962.4 0 118.0 19.37 0.9907 9.500
0.000 114.2 18.24 9.500
Fit parameter 5 has pegged
13962.2 0 118.0 19.37 0.9906 9.500
0.000 114.2 18.24 9.500
Fit parameter 5 has pegged
13962.1 0 118.0 19.37 0.9904 9.500
0.000 114.2 18.24 9.500
Fit parameter 5 has pegged
13962.0 0 118.0 19.37 0.9903 9.500
0.000 114.2 18.24 9.500
Fit parameter 5 has pegged
13961.9 0 118.0 19.37 0.9902 9.500
0.000 114.2 18.23 9.500
Fit parameter 5 has pegged
13961.8 0 118.1 19.37 0.9901 9.500
0.000 114.2 18.23 9.500
Fit parameter 5 has pegged
13961.7 0 118.1 19.37 0.9900 9.500
0.000 114.2 18.23 9.500
Fit parameter 5 has pegged
13961.6 0 118.1 19.37 0.9899 9.500
0.000 114.2 18.23 9.500
Fit parameter 5 has pegged
13961.5 0 118.1 19.37 0.9899 9.500
0.000 114.2 18.23 9.500
Fit parameter 5 has pegged
13961.5 0 118.1 19.37 0.9898 9.500
0.000 114.2 18.23 9.500
Fit parameter 5 has pegged
13961.3 0 118.1 19.37 0.9897 9.500
0.000 114.2 18.23 9.500
Fit parameter 5 has pegged
13961.3 0 118.1 19.37 0.9896 9.500
0.000 114.2 18.22 9.500
13961.2 4 118.1 19.37 0.9896 9.500
0.000 114.2 18.23 9.500
Fit parameter 5 has pegged
13961.2 5 118.1 19.37 0.9896 9.500
0.000 114.2 18.23 9.500
13961.1 0 118.1 19.37 0.9894 9.500
0.000 114.2 18.23 9.500
Fit parameter 5 has pegged
13961.0 0 118.1 19.37 0.9894 9.500
0.000 114.2 18.22 9.500
Fit parameter 5 has pegged
13961.0 0 118.1 19.37 0.9893 9.500
0.000 114.2 18.22 9.500
Fit parameter 5 has pegged
13960.9 0 118.1 19.37 0.9892 9.500
0.000 114.2 18.22 9.500
Fit parameter 5 has pegged
13960.8 0 118.1 19.37 0.9891 9.500
0.000 114.2 18.22 9.500
Fit parameter 5 has pegged
13960.8 1 118.1 19.37 0.9891 9.500
0.000 114.2 18.22 9.500
Fit parameter 5 has pegged
13960.8 0 118.1 19.37 0.9890 9.500
0.000 114.2 18.22 9.500
13960.6 0 118.1 19.37 0.9889 9.500
0.000 114.2 18.22 9.500
Fit parameter 5 has pegged
13960.5 0 118.1 19.37 0.9889 9.500
0.000 114.2 18.22 9.500
Fit parameter 5 has pegged
13960.5 3 118.1 19.37 0.9889 9.500
0.000 114.2 18.22 9.500
13960.4 0 118.1 19.37 0.9888 9.500
0.000 114.2 18.22 9.500
Fit parameter 5 has pegged
13960.4 0 118.1 19.37 0.9887 9.500
0.000 114.2 18.21 9.500
Fit parameter 5 has pegged
13960.4 3 118.1 19.37 0.9887 9.500
0.000 114.2 18.21 9.500
13960.4 5 118.1 19.37 0.9887 9.500
0.000 114.2 18.21 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.30E-05 | -0.01 0.00 -1.00 -0.01 0.00
8.85E-03 | 0.03 0.00 0.00 -0.72 -0.69
1.79E-02 | -0.99 -0.07 0.01 0.08 -0.13
4.80E-02 | 0.15 0.05 -0.01 0.69 -0.71
2.40E+00 | -0.07 1.00 0.00 -0.03 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.100 +/- 0.176459 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.54356 1
3 3 1 gaussian norm 0.988690 +/- 0.499354E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 114.241 +/- 0.172639 2
7 7 3 gaussian Sigma keV 18.2139 +/- 0.174505 2
8 3 3 gaussian norm 0.988690 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13960.37 using 198 PHA bins.
Reduced chi-squared = 73.47564 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 70.865) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 70.865) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8156 photons ( 1.6223E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7739 photons ( 1.5014E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:13 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.385 +/- 5.3839E-03
Net count rate (cts/s) for file 2 2.385 +/- 5.3839E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 802190.7 using 168 PHA bins.
Reduced chi-squared = 5013.692 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 25905.13 using 168 PHA bins.
Reduced chi-squared = 161.9070 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5725.47 -3 86.05 14.60 0.1407 1.001
0.5777 86.15 14.04 0.9898
1579.17 -4 73.28 17.37 0.1963 0.9393
0.5173 74.87 16.74 0.9408
1016.43 0 75.52 12.69 0.1956 0.9403
0.5158 76.52 14.52 0.9406
700.683 -1 76.73 10.21 0.1525 0.9337
0.5292 78.09 10.25 0.9337
667.973 -2 76.45 9.880 0.1389 0.9241
0.5180 77.78 10.11 0.9241
652.554 -3 76.27 9.273 0.1374 0.9035
0.4751 77.62 10.01 0.9042
650.858 -4 76.13 9.368 0.1379 0.8963
0.4608 77.55 10.11 0.8964
650.797 -5 76.15 9.321 0.1375 0.8963
0.4606 77.56 10.01 0.8961
650.756 -6 76.14 9.337 0.1377 0.8962
0.4604 77.55 10.08 0.8960
650.755 -1 76.14 9.333 0.1376 0.8962
0.4604 77.55 10.03 0.8960
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.59E-07 | 0.00 0.00 -0.29 0.55 -0.57 0.00 0.00 0.54
9.31E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
4.80E-06 | 0.00 0.01 -0.96 -0.16 0.19 0.00 0.02 -0.17
4.32E-04 | 0.02 0.01 -0.01 -0.43 -0.80 0.02 0.03 -0.41
2.90E-03 | 0.00 0.09 -0.02 -0.01 -0.02 -0.02 -1.00 -0.02
4.56E-02 | 0.74 0.67 0.01 0.01 0.02 -0.03 0.06 0.01
6.55E-02 | 0.36 -0.35 0.00 0.01 0.02 0.86 -0.05 0.01
5.30E-02 | -0.57 0.65 0.01 0.00 0.00 0.50 0.05 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.1447 +/- 0.224742 1
2 2 1 gaussian Sigma keV 9.33294 +/- 0.225473 1
3 3 1 gaussian norm 0.137616 +/- 0.303466E-02 1
4 4 2 powerlaw PhoIndex 0.896225 +/- 0.955006E-02 1
5 5 2 powerlaw norm 0.460398 +/- 0.177493E-01 1
6 6 3 gaussian LineE keV 77.5524 +/- 0.249514 2
7 7 3 gaussian Sigma keV 10.0294 +/- 0.578172E-01 2
8 3 3 gaussian norm 0.137616 = par 3 2
9 8 4 powerlaw PhoIndex 0.896030 +/- 0.916666E-02 2
10 5 4 powerlaw norm 0.460398 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 650.7552 using 168 PHA bins.
Reduced chi-squared = 4.067220 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.897) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.897) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9451 photons ( 1.1364E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9457 photons ( 1.1404E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
96.53712
=====best line=====
76.1461 0.224675
=====best sigma=====
9.33352 0.225419
=====norm=====
0.137627 0.303477E-02
=====phoindx=====
0.896519 0.955025E-02
=====pow_norm=====
0.460976 0.177724E-01
=====best line=====
77.5548 0.249694
=====best sigma=====
10.0285 0.573304E-01
=====norm=====
0.137627 par
=====phoindx=====
0.896328 0.916691E-02
=====pow_norm=====
0.460976 par
=====redu_chi=====
4.067235
=====area_flux=====
0.9451
=====area_flux_f=====
0.9457
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 9 1 640 2000 1218.3376 0 0.137627 0.303477E-02 9.33352 0.225419 0.896519 0.955025E-02 0.460976 0.177724E-01 0.9451 640 2000 1240.8768 0 0.137627 0.303477E-02 10.0285 0.573304E-01 0.896328 0.916691E-02 0.460976 0.177724E-01 0.9457 4.067235 1
=====redu_chi=====
458.5255
=====best line=====
118.100 0.176459
=====best sigma=====
19.3655 1.54356
=====norm=====
0.988690 0.499354E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.241 0.172639
=====best sigma=====
18.2139 0.174505
=====norm=====
0.988690 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
73.47564
=====area_flux=====
0.8156
=====area_flux_f=====
0.7739
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 9 1 1600 3200 1889.6 0 0.988690 0.499354E-02 309.848 24.69696 9.50000 -1.00000 0.00000 -1.00000 0.8156 1600 3200 1827.856 0 0.988690 0.499354E-02 291.4224 2.79208 9.50000 -1.00000 0.00000 -1.00000 0.7739 73.47564 1
=====redu_chi=====
161.9070
=====best line=====
76.1447 0.224742
=====best sigma=====
9.33294 0.225473
=====norm=====
0.137616 0.303466E-02
=====phoindx=====
0.896225 0.955006E-02
=====pow_norm=====
0.460398 0.177493E-01
=====best line=====
77.5524 0.249514
=====best sigma=====
10.0294 0.578172E-01
=====norm=====
0.137616 par
=====phoindx=====
0.896030 0.916666E-02
=====pow_norm=====
0.460398 par
=====redu_chi=====
4.067220
=====area_flux=====
0.9451
=====area_flux_f=====
0.9457
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 9 1 640 2000 1218.3152 0 0.137616 0.303466E-02 9.33294 0.225473 0.896225 0.955006E-02 0.460398 0.177493E-01 0.9451 640 2000 1240.8384 0 0.137616 0.303466E-02 10.0294 0.578172E-01 0.896030 0.916666E-02 0.460398 0.177493E-01 0.9457 4.067220 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:13 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.454 +/- 5.4608E-03
Net count rate (cts/s) for file 2 2.454 +/- 5.4608E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 725582.6 using 168 PHA bins.
Reduced chi-squared = 4534.891 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19650.10 using 168 PHA bins.
Reduced chi-squared = 122.8131 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8669.85 -3 81.92 16.58 0.1926 1.061
0.6342 81.61 16.68 1.051
1551.52 -3 74.19 7.631 0.1145 0.8648
0.4272 73.00 7.599 0.8736
1526.19 -2 75.36 12.14 0.1567 0.9037
0.4631 75.20 15.15 0.9046
978.259 -2 76.35 9.468 0.1239 0.9249
0.5222 75.25 8.086 0.9256
868.734 -2 75.74 9.671 0.1576 0.9506
0.5637 75.85 12.32 0.9509
759.245 -3 76.27 9.248 0.1509 1.011
0.7110 76.09 9.740 1.009
622.913 -4 76.24 9.750 0.1607 1.035
0.7985 76.17 9.920 1.034
612.145 -5 76.33 9.571 0.1592 1.034
0.8077 76.19 9.819 1.035
612.041 -6 76.30 9.643 0.1600 1.034
0.8072 76.18 9.864 1.035
612.028 -7 76.31 9.615 0.1597 1.034
0.8073 76.18 9.845 1.035
612.025 -8 76.31 9.626 0.1598 1.034
0.8072 76.18 9.853 1.035
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.50E-07 | 0.00 0.00 -0.35 0.63 -0.36 0.00 0.00 0.60
9.82E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.04E-06 | 0.00 0.01 -0.94 -0.22 0.14 0.00 0.01 -0.23
1.04E-03 | 0.04 0.01 -0.01 -0.28 -0.92 0.04 0.01 -0.27
2.76E-02 | -0.15 -0.72 0.00 0.00 0.00 0.13 0.66 0.00
6.14E-02 | 0.31 -0.58 -0.01 0.00 0.01 0.38 -0.65 0.00
3.98E-02 | 0.91 -0.02 0.00 0.01 0.02 -0.33 0.25 0.01
4.20E-02 | 0.24 0.37 0.00 0.01 0.05 0.85 0.29 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.3086 +/- 0.204123 1
2 2 1 gaussian Sigma keV 9.62622 +/- 0.202679 1
3 3 1 gaussian norm 0.159784 +/- 0.304329E-02 1
4 4 2 powerlaw PhoIndex 1.03402 +/- 0.974755E-02 1
5 5 2 powerlaw norm 0.807219 +/- 0.315849E-01 1
6 6 3 gaussian LineE keV 76.1839 +/- 0.210556 2
7 7 3 gaussian Sigma keV 9.85265 +/- 0.209025 2
8 3 3 gaussian norm 0.159784 = par 3 2
9 8 4 powerlaw PhoIndex 1.03514 +/- 0.934701E-02 2
10 5 4 powerlaw norm 0.807219 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 612.0246 using 168 PHA bins.
Reduced chi-squared = 3.825154 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.665) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.665) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9473 photons ( 1.1266E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9436 photons ( 1.1218E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:13 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.831 +/- 8.4187E-03
Net count rate (cts/s) for file 2 5.831 +/- 8.4187E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.378 +/- 1.0035E-02( 57.9% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.378 +/- 1.0035E-02( 57.9% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.4448752E+07 using 198 PHA bins.
Reduced chi-squared = 76046.06 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 93079.53 using 198 PHA bins.
Reduced chi-squared = 489.8923 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
51700.6 -3 113.7 19.14 0.3551 2.834
0.1259 111.3 19.13 2.785
22006.8 -2 108.3 19.28 1.280 7.144
4.1670E-02 105.6 19.29 7.573
20345.7 0 109.6 19.36 1.244 8.714
1.5055E-02 107.1 19.35 9.429
19138.7 0 110.8 19.36 1.214 9.348
4.2608E-03 108.4 19.36 9.480
18188.5 0 111.9 19.37 1.186 9.476
5.1168E-04 109.6 19.36 9.494
17484.1 0 112.8 19.37 1.163 9.495
6.4724E-06 110.5 19.37 9.497
16960.8 0 113.6 19.37 1.141 9.499
1.8762E-06 111.3 19.37 9.500
16597.6 0 114.3 19.37 1.123 9.500
6.7734E-07 112.0 19.37 9.500
16338.6 0 114.9 19.37 1.107 9.500
5.7366E-08 112.5 19.37 9.500
16171.8 0 115.4 19.37 1.095 9.500
1.7838E-08 112.9 19.37 9.500
15959.7 0 116.1 19.37 1.075 9.500
9.0998E-10 113.3 19.37 9.500
15860.1 0 116.6 19.37 1.062 9.500
8.0989E-13 113.6 19.37 9.500
15833.1 0 116.8 19.37 1.058 9.500
3.7317E-13 113.6 19.37 9.500
Fit parameter 5 has pegged
15742.0 0 116.9 19.37 1.048 9.500
0.000 113.5 19.12 9.500
Fit parameter 5 has pegged
15723.5 0 117.0 19.37 1.044 9.500
0.000 113.5 19.12 9.500
Fit parameter 5 has pegged
15712.9 0 117.1 19.37 1.042 9.500
0.000 113.5 19.12 9.500
Fit parameter 5 has pegged
15707.2 0 117.1 19.37 1.041 9.500
0.000 113.5 19.11 9.500
Fit parameter 5 has pegged
15701.4 0 117.1 19.37 1.040 9.500
0.000 113.5 19.10 9.500
Fit parameter 5 has pegged
15696.1 0 117.2 19.37 1.039 9.500
0.000 113.5 19.09 9.500
Fit parameter 5 has pegged
15692.6 0 117.2 19.37 1.038 9.500
0.000 113.6 19.08 9.500
Fit parameter 5 has pegged
15691.3 0 117.2 19.37 1.038 9.500
0.000 113.6 19.08 9.500
Fit parameter 5 has pegged
15689.3 0 117.2 19.37 1.038 9.500
0.000 113.6 19.08 9.500
Fit parameter 5 has pegged
15687.9 0 117.2 19.37 1.037 9.500
0.000 113.6 19.07 9.500
Fit parameter 5 has pegged
15686.1 0 117.2 19.37 1.037 9.500
0.000 113.6 19.07 9.500
Fit parameter 5 has pegged
15685.7 0 117.2 19.37 1.037 9.500
0.000 113.6 19.06 9.500
Fit parameter 5 has pegged
15684.2 0 117.2 19.37 1.036 9.500
0.000 113.6 19.06 9.500
Fit parameter 5 has pegged
15683.3 0 117.3 19.37 1.036 9.500
0.000 113.6 19.06 9.500
Fit parameter 5 has pegged
15683.0 0 117.3 19.37 1.036 9.500
0.000 113.6 19.06 9.500
Fit parameter 5 has pegged
15682.0 0 117.3 19.37 1.036 9.500
0.000 113.6 19.06 9.500
Fit parameter 5 has pegged
15680.9 0 117.3 19.37 1.036 9.500
0.000 113.7 19.05 9.500
Fit parameter 5 has pegged
15680.3 0 117.3 19.37 1.035 9.500
0.000 113.7 19.05 9.500
Fit parameter 5 has pegged
15679.6 0 117.3 19.37 1.035 9.500
0.000 113.7 19.06 9.500
Fit parameter 5 has pegged
15673.6 0 117.3 19.37 1.034 9.500
0.000 113.7 19.06 9.500
Fit parameter 5 has pegged
15668.0 0 117.4 19.37 1.033 9.500
0.000 113.7 19.06 9.500
Fit parameter 5 has pegged
15663.0 0 117.4 19.37 1.033 9.500
0.000 113.7 19.06 9.500
Fit parameter 5 has pegged
15658.4 0 117.5 19.37 1.032 9.500
0.000 113.7 19.05 9.500
Fit parameter 5 has pegged
15654.3 0 117.5 19.37 1.031 9.500
0.000 113.7 19.05 9.500
Fit parameter 5 has pegged
15650.5 0 117.6 19.37 1.030 9.500
0.000 113.7 19.05 9.500
Fit parameter 5 has pegged
15647.0 0 117.6 19.37 1.029 9.500
0.000 113.7 19.05 9.500
Fit parameter 5 has pegged
15643.8 0 117.6 19.37 1.029 9.500
0.000 113.7 19.05 9.500
Fit parameter 5 has pegged
15640.9 0 117.7 19.37 1.028 9.500
0.000 113.7 19.04 9.500
Fit parameter 5 has pegged
15638.2 0 117.7 19.37 1.027 9.500
0.000 113.7 19.04 9.500
Fit parameter 5 has pegged
15635.7 0 117.7 19.37 1.027 9.500
0.000 113.7 19.04 9.500
Fit parameter 5 has pegged
15633.5 0 117.8 19.37 1.026 9.500
0.000 113.7 19.04 9.500
Fit parameter 5 has pegged
15631.2 0 117.8 19.37 1.026 9.500
0.000 113.7 19.03 9.500
Fit parameter 5 has pegged
15629.3 0 117.8 19.37 1.025 9.500
0.000 113.7 19.03 9.500
Fit parameter 5 has pegged
15627.6 0 117.8 19.37 1.025 9.500
0.000 113.7 19.03 9.500
Fit parameter 5 has pegged
15625.9 0 117.9 19.37 1.024 9.500
0.000 113.7 19.03 9.500
Fit parameter 5 has pegged
15624.4 0 117.9 19.37 1.024 9.500
0.000 113.7 19.02 9.500
Fit parameter 5 has pegged
15622.9 0 117.9 19.37 1.023 9.500
0.000 113.8 19.02 9.500
Fit parameter 5 has pegged
15621.5 0 117.9 19.37 1.023 9.500
0.000 113.8 19.02 9.500
Fit parameter 5 has pegged
15620.3 0 117.9 19.37 1.022 9.500
0.000 113.8 19.01 9.500
Fit parameter 5 has pegged
15619.2 0 118.0 19.37 1.022 9.500
0.000 113.8 19.01 9.500
Fit parameter 5 has pegged
15618.1 0 118.0 19.37 1.022 9.500
0.000 113.8 19.01 9.500
Fit parameter 5 has pegged
15617.1 0 118.0 19.37 1.021 9.500
0.000 113.8 19.01 9.500
Fit parameter 5 has pegged
15616.2 0 118.0 19.37 1.021 9.500
0.000 113.8 19.00 9.500
Fit parameter 5 has pegged
15615.3 0 118.0 19.37 1.021 9.500
0.000 113.8 19.00 9.500
Fit parameter 5 has pegged
15614.5 0 118.0 19.37 1.020 9.500
0.000 113.8 19.00 9.500
Fit parameter 5 has pegged
15613.7 0 118.1 19.37 1.020 9.500
0.000 113.8 19.00 9.500
Fit parameter 5 has pegged
15613.0 0 118.1 19.37 1.020 9.500
0.000 113.8 18.99 9.500
Fit parameter 5 has pegged
15612.2 0 118.1 19.37 1.019 9.500
0.000 113.8 18.99 9.500
Fit parameter 5 has pegged
15611.6 0 118.1 19.37 1.019 9.500
0.000 113.8 18.99 9.500
Fit parameter 5 has pegged
15611.0 0 118.1 19.37 1.019 9.500
0.000 113.9 18.99 9.500
Fit parameter 5 has pegged
15610.4 0 118.1 19.37 1.019 9.500
0.000 113.9 18.98 9.500
Fit parameter 5 has pegged
15609.9 0 118.1 19.37 1.018 9.500
0.000 113.9 18.98 9.500
Fit parameter 5 has pegged
15609.4 0 118.1 19.37 1.018 9.500
0.000 113.9 18.98 9.500
Fit parameter 5 has pegged
15608.8 0 118.1 19.37 1.018 9.500
0.000 113.9 18.97 9.500
Fit parameter 5 has pegged
15608.4 0 118.1 19.37 1.018 9.500
0.000 113.9 18.97 9.500
Fit parameter 5 has pegged
15608.0 0 118.2 19.37 1.017 9.500
0.000 113.9 18.97 9.500
Fit parameter 5 has pegged
15607.5 0 118.2 19.37 1.017 9.500
0.000 113.9 18.97 9.500
Fit parameter 5 has pegged
15607.2 0 118.2 19.37 1.017 9.500
0.000 113.9 18.96 9.500
Fit parameter 5 has pegged
15606.7 0 118.2 19.37 1.017 9.500
0.000 113.9 18.96 9.500
Fit parameter 5 has pegged
15606.4 0 118.2 19.37 1.017 9.500
0.000 113.9 18.96 9.500
Fit parameter 5 has pegged
15606.1 0 118.2 19.37 1.016 9.500
0.000 113.9 18.96 9.500
Fit parameter 5 has pegged
15605.7 0 118.2 19.37 1.016 9.500
0.000 113.9 18.95 9.500
Fit parameter 5 has pegged
15605.5 0 118.2 19.37 1.016 9.500
0.000 113.9 18.95 9.500
Fit parameter 5 has pegged
15605.2 0 118.2 19.37 1.016 9.500
0.000 114.0 18.95 9.500
Fit parameter 5 has pegged
15604.8 0 118.2 19.37 1.016 9.500
0.000 114.0 18.95 9.500
Fit parameter 5 has pegged
15604.6 0 118.2 19.37 1.015 9.500
0.000 114.0 18.95 9.500
Fit parameter 5 has pegged
15604.3 0 118.2 19.37 1.015 9.500
0.000 114.0 18.94 9.500
Fit parameter 5 has pegged
15604.1 0 118.2 19.37 1.015 9.500
0.000 114.0 18.94 9.500
Fit parameter 5 has pegged
15603.8 0 118.2 19.37 1.015 9.500
0.000 114.0 18.94 9.500
Fit parameter 5 has pegged
15603.5 0 118.2 19.37 1.015 9.500
0.000 114.0 18.94 9.500
Fit parameter 5 has pegged
15603.4 0 118.2 19.37 1.015 9.500
0.000 114.0 18.94 9.500
Fit parameter 5 has pegged
15603.2 0 118.2 19.37 1.015 9.500
0.000 114.0 18.93 9.500
Fit parameter 5 has pegged
15603.0 0 118.3 19.37 1.014 9.500
0.000 114.0 18.93 9.500
Fit parameter 5 has pegged
15602.8 0 118.3 19.37 1.014 9.500
0.000 114.0 18.93 9.500
Fit parameter 5 has pegged
15602.6 0 118.3 19.37 1.014 9.500
0.000 114.0 18.93 9.500
Fit parameter 5 has pegged
15602.4 0 118.3 19.37 1.014 9.500
0.000 114.0 18.93 9.500
Fit parameter 5 has pegged
15602.3 0 118.3 19.37 1.014 9.500
0.000 114.0 18.92 9.500
Fit parameter 5 has pegged
15602.2 0 118.3 19.37 1.014 9.500
0.000 114.0 18.92 9.500
Fit parameter 5 has pegged
15602.1 0 118.3 19.37 1.014 9.500
0.000 114.0 18.92 9.500
Fit parameter 5 has pegged
15601.9 0 118.3 19.37 1.014 9.500
0.000 114.0 18.92 9.500
Fit parameter 5 has pegged
15601.8 0 118.3 19.37 1.013 9.500
0.000 114.0 18.92 9.500
Fit parameter 5 has pegged
15601.6 0 118.3 19.37 1.013 9.500
0.000 114.0 18.92 9.500
Fit parameter 5 has pegged
15601.5 0 118.3 19.37 1.013 9.500
0.000 114.0 18.92 9.500
Fit parameter 5 has pegged
15601.4 0 118.3 19.37 1.013 9.500
0.000 114.1 18.91 9.500
Fit parameter 5 has pegged
15601.2 0 118.3 19.37 1.013 9.500
0.000 114.1 18.91 9.500
Fit parameter 5 has pegged
15601.1 0 118.3 19.37 1.013 9.500
0.000 114.1 18.91 9.500
Fit parameter 5 has pegged
15601.1 0 118.3 19.37 1.013 9.500
0.000 114.1 18.91 9.500
Fit parameter 5 has pegged
15600.9 0 118.3 19.37 1.013 9.500
0.000 114.1 18.91 9.500
Fit parameter 5 has pegged
15600.8 0 118.3 19.37 1.013 9.500
0.000 114.1 18.91 9.500
Fit parameter 5 has pegged
15600.7 0 118.3 19.37 1.013 9.500
0.000 114.1 18.91 9.500
Fit parameter 5 has pegged
15600.6 0 118.3 19.37 1.013 9.500
0.000 114.1 18.90 9.500
Fit parameter 5 has pegged
15600.6 0 118.3 19.37 1.012 9.500
0.000 114.1 18.90 9.500
Fit parameter 5 has pegged
15600.5 0 118.3 19.37 1.012 9.500
0.000 114.1 18.90 9.500
Fit parameter 5 has pegged
15600.4 0 118.3 19.37 1.012 9.500
0.000 114.1 18.90 9.500
Fit parameter 5 has pegged
15600.3 0 118.3 19.37 1.012 9.500
0.000 114.1 18.90 9.500
Fit parameter 5 has pegged
15600.2 0 118.3 19.37 1.012 9.500
0.000 114.1 18.90 9.500
Fit parameter 5 has pegged
15600.2 1 118.3 19.37 1.012 9.500
0.000 114.1 18.90 9.500
Fit parameter 5 has pegged
15600.2 0 118.3 19.37 1.012 9.500
0.000 114.1 18.89 9.500
Fit parameter 5 has pegged
15600.0 0 118.3 19.37 1.012 9.500
0.000 114.1 18.89 9.500
Fit parameter 5 has pegged
15600.0 4 118.3 19.37 1.012 9.500
0.000 114.1 18.89 9.500
15600.0 4 118.3 19.37 1.012 9.500
0.000 114.1 18.89 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.28E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.40E-02 | 0.31 0.01 0.01 -0.92 -0.24
1.81E-02 | -0.95 -0.06 0.01 -0.29 -0.12
2.50E+00 | -0.06 0.99 0.00 -0.03 0.08
2.12E-01 | -0.04 -0.09 0.00 -0.26 0.96
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.314 +/- 0.167830 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.57150 1
3 3 1 gaussian norm 1.01202 +/- 0.505388E-02 1
4 4 2 powerlaw PhoIndex 9.50001 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 114.099 +/- 0.175826 2
7 7 3 gaussian Sigma keV 18.8944 +/- 0.461201 2
8 3 3 gaussian norm 1.01202 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 15600.04 using 198 PHA bins.
Reduced chi-squared = 82.10546 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 79.188) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 79.188) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8377 photons ( 1.6681E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7814 photons ( 1.5211E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:13 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.454 +/- 5.4608E-03
Net count rate (cts/s) for file 2 2.454 +/- 5.4608E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 848874.4 using 168 PHA bins.
Reduced chi-squared = 5305.465 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 29799.76 using 168 PHA bins.
Reduced chi-squared = 186.2485 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
17241.1 -3 85.18 14.24 0.1326 1.104
0.6977 84.95 14.20 1.090
2900.70 -4 70.26 15.95 0.1797 0.9304
0.5485 69.29 15.91 0.9399
1355.19 -2 79.66 7.754 0.1158 0.9694
0.6245 78.53 8.131 0.9695
996.197 -3 76.55 12.66 0.1534 1.032
0.7780 76.39 10.51 1.031
656.655 -4 76.95 9.548 0.1464 1.033
0.8156 76.30 9.858 1.034
612.719 -5 76.24 9.752 0.1605 1.034
0.8079 76.17 9.876 1.035
612.117 -6 76.33 9.574 0.1593 1.034
0.8077 76.19 9.829 1.035
612.038 -7 76.30 9.642 0.1599 1.034
0.8072 76.18 9.861 1.035
612.026 -8 76.31 9.616 0.1597 1.034
0.8073 76.18 9.846 1.035
612.024 -9 76.31 9.626 0.1598 1.034
0.8072 76.18 9.852 1.035
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.50E-07 | 0.00 0.00 -0.35 0.63 -0.36 0.00 0.00 0.60
9.82E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.04E-06 | 0.00 0.01 -0.94 -0.22 0.14 0.00 0.01 -0.23
1.04E-03 | 0.04 0.01 -0.01 -0.28 -0.92 0.04 0.01 -0.27
2.76E-02 | -0.15 -0.72 0.00 0.00 0.00 0.13 0.66 0.00
6.15E-02 | 0.31 -0.58 -0.01 0.00 0.01 0.38 -0.65 0.00
3.98E-02 | 0.91 -0.02 0.00 0.01 0.02 -0.33 0.25 0.01
4.20E-02 | 0.24 0.37 0.00 0.01 0.05 0.85 0.29 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.3088 +/- 0.204138 1
2 2 1 gaussian Sigma keV 9.62575 +/- 0.202691 1
3 3 1 gaussian norm 0.159779 +/- 0.304355E-02 1
4 4 2 powerlaw PhoIndex 1.03402 +/- 0.974777E-02 1
5 5 2 powerlaw norm 0.807225 +/- 0.315858E-01 1
6 6 3 gaussian LineE keV 76.1841 +/- 0.210566 2
7 7 3 gaussian Sigma keV 9.85231 +/- 0.209039 2
8 3 3 gaussian norm 0.159779 = par 3 2
9 8 4 powerlaw PhoIndex 1.03514 +/- 0.934727E-02 2
10 5 4 powerlaw norm 0.807225 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 612.0244 using 168 PHA bins.
Reduced chi-squared = 3.825152 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.665) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.665) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9473 photons ( 1.1266E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9436 photons ( 1.1218E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
122.8131
=====best line=====
76.3086 0.204123
=====best sigma=====
9.62622 0.202679
=====norm=====
0.159784 0.304329E-02
=====phoindx=====
1.03402 0.974755E-02
=====pow_norm=====
0.807219 0.315849E-01
=====best line=====
76.1839 0.210556
=====best sigma=====
9.85265 0.209025
=====norm=====
0.159784 par
=====phoindx=====
1.03514 0.934701E-02
=====pow_norm=====
0.807219 par
=====redu_chi=====
3.825154
=====area_flux=====
0.9473
=====area_flux_f=====
0.9436
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 10 1 640 2000 1220.9376 0 0.159784 0.304329E-02 9.62622 0.202679 1.03402 0.974755E-02 0.807219 0.315849E-01 0.9473 640 2000 1218.9424 0 0.159784 0.304329E-02 9.85265 0.209025 1.03514 0.934701E-02 0.807219 0.315849E-01 0.9436 3.825154 1
=====redu_chi=====
489.8923
=====best line=====
118.314 0.167830
=====best sigma=====
19.3655 1.57150
=====norm=====
1.01202 0.505388E-02
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.099 0.175826
=====best sigma=====
18.8944 0.461201
=====norm=====
1.01202 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
82.10546
=====area_flux=====
0.8377
=====area_flux_f=====
0.7814
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 10 1 1600 3200 1893.024 0 1.01202 0.505388E-02 309.848 25.144 9.50001 -1.00000 0.00000 -1.00000 0.8377 1600 3200 1825.584 0 1.01202 0.505388E-02 302.3104 7.379216 9.50000 -1.00000 0.00000 -1.00000 0.7814 82.10546 1
=====redu_chi=====
186.2485
=====best line=====
76.3088 0.204138
=====best sigma=====
9.62575 0.202691
=====norm=====
0.159779 0.304355E-02
=====phoindx=====
1.03402 0.974777E-02
=====pow_norm=====
0.807225 0.315858E-01
=====best line=====
76.1841 0.210566
=====best sigma=====
9.85231 0.209039
=====norm=====
0.159779 par
=====phoindx=====
1.03514 0.934727E-02
=====pow_norm=====
0.807225 par
=====redu_chi=====
3.825152
=====area_flux=====
0.9473
=====area_flux_f=====
0.9436
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 10 1 640 2000 1220.9408 0 0.159779 0.304355E-02 9.62575 0.202691 1.03402 0.974777E-02 0.807225 0.315858E-01 0.9473 640 2000 1218.9456 0 0.159779 0.304355E-02 9.85231 0.209039 1.03514 0.934727E-02 0.807225 0.315858E-01 0.9436 3.825152 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:14 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.795 +/- 5.8286E-03
Net count rate (cts/s) for file 2 2.795 +/- 5.8286E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 601934.5 using 168 PHA bins.
Reduced chi-squared = 3762.091 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19791.95 using 168 PHA bins.
Reduced chi-squared = 123.6997 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5371.58 -3 83.45 17.45 0.2415 0.9992
0.5919 83.44 17.20 0.9888
3026.10 -3 70.21 19.14 0.3430 0.8810
0.3352 72.51 19.24 0.8850
1868.73 -2 73.08 8.513 8.1304E-02 0.8160
0.3937 76.02 7.273 0.8096
1414.16 -3 67.96 12.90 0.1480 0.7973
0.3289 73.74 15.07 0.7971
1311.00 -4 73.59 8.971 9.9769E-02 0.8321
0.3913 76.55 7.711 0.8286
1178.87 -5 68.38 12.73 0.1504 0.7849
0.3069 73.84 13.42 0.7857
940.986 -6 72.66 9.224 0.1177 0.8173
0.3620 75.23 9.206 0.8134
730.089 -7 69.03 10.05 0.1563 0.7718
0.2893 73.42 12.15 0.7726
609.215 -8 70.39 9.580 0.1413 0.7880
0.3172 74.29 9.766 0.7859
548.464 -9 69.86 8.991 0.1534 0.7708
0.2933 73.67 9.903 0.7704
547.832 -10 69.85 8.993 0.1531 0.7710
0.2936 73.71 9.841 0.7699
547.830 -11 69.85 8.995 0.1531 0.7709
0.2935 73.71 9.850 0.7699
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.51E-07 | 0.00 0.00 -0.21 0.46 -0.74 0.00 0.00 0.45
8.47E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.21E-06 | 0.00 0.01 -0.98 -0.09 0.15 0.00 0.01 -0.11
2.39E-04 | 0.02 -0.01 0.01 -0.54 -0.66 0.02 0.00 -0.52
3.05E-02 | -0.17 -0.80 0.00 0.00 0.00 0.05 0.57 0.00
7.53E-02 | 0.28 -0.50 -0.01 0.01 0.01 0.48 -0.66 0.01
4.15E-02 | -0.94 0.00 0.00 -0.01 -0.01 0.15 -0.29 -0.01
4.94E-02 | -0.01 -0.32 0.00 -0.01 -0.01 -0.86 -0.39 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 69.8516 +/- 0.209236 1
2 2 1 gaussian Sigma keV 8.99458 +/- 0.208966 1
3 3 1 gaussian norm 0.153141 +/- 0.324891E-02 1
4 4 2 powerlaw PhoIndex 0.770913 +/- 0.919040E-02 1
5 5 2 powerlaw norm 0.293519 +/- 0.112583E-01 1
6 6 3 gaussian LineE keV 73.7081 +/- 0.234943 2
7 7 3 gaussian Sigma keV 9.85039 +/- 0.232589 2
8 3 3 gaussian norm 0.153141 = par 3 2
9 8 4 powerlaw PhoIndex 0.769863 +/- 0.881129E-02 2
10 5 4 powerlaw norm 0.293519 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 547.8304 using 168 PHA bins.
Reduced chi-squared = 3.423940 for 160 degrees of freedom
Null hypothesis probability = 6.446E-44
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.280) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.280) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.032 photons ( 1.2394E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.036 photons ( 1.2538E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:14 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.845 +/- 9.1210E-03
Net count rate (cts/s) for file 2 6.845 +/- 9.1210E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.050 +/- 1.0824E-02( 59.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.050 +/- 1.0824E-02( 59.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 2.2513458E+07 using 198 PHA bins.
Reduced chi-squared = 118491.9 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 85387.62 using 198 PHA bins.
Reduced chi-squared = 449.4085 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
59102.1 -3 79.79 18.93 0.4739 2.603
7.3626E-02 102.3 19.05 2.557
58589.2 1 80.73 19.28 0.4846 1.424
0.2297 102.5 19.03 2.540
47881.6 0 88.12 19.34 0.5761 1.436
0.2166 104.2 18.68 3.013
26371.1 0 108.1 19.36 0.9268 1.497
0.1527 108.4 8.434 9.468
26115.5 1 108.2 19.34 0.9258 1.500
0.1507 108.4 8.475 2.068
24067.2 0 108.5 19.15 0.9183 1.523
0.1340 108.4 8.843 2.036
16031.4 0 111.2 12.72 0.9167 1.628
6.7083E-02 108.6 14.65 1.792
10584.0 -1 109.4 16.71 1.145 1.531
8.4680E-03 109.7 16.95 3.148
8523.89 -2 110.1 18.41 1.158 2.315
1.9685E-03 109.9 15.83 9.365
8483.67 0 110.5 18.52 1.139 6.296
9.3905E-04 110.2 16.08 9.448
8482.35 0 110.7 18.49 1.126 8.296
4.0129E-04 110.3 16.13 9.484
8472.19 0 110.9 18.45 1.118 9.291
1.1049E-04 110.4 16.13 9.497
8434.96 0 110.9 18.42 1.116 9.444
3.1729E-05 110.3 16.09 9.499
8409.41 0 110.9 18.40 1.115 9.485
1.4511E-05 110.3 16.06 9.500
8390.00 0 110.9 18.38 1.114 9.499
5.3449E-06 110.3 16.04 9.500
8374.98 0 110.9 18.36 1.113 9.500
7.3015E-07 110.3 16.02 9.500
8363.06 0 110.9 18.34 1.112 9.500
1.5925E-07 110.3 16.00 9.500
8353.26 0 111.0 18.32 1.111 9.500
1.7861E-08 110.3 15.98 9.500
8328.43 0 111.0 18.28 1.108 9.500
8.2410E-12 110.2 15.94 9.500
8321.97 0 111.0 18.26 1.108 9.500
3.6945E-12 110.2 15.92 9.500
8316.44 0 111.0 18.25 1.107 9.500
1.4374E-12 110.2 15.91 9.500
8311.64 0 111.0 18.24 1.106 9.500
3.1542E-13 110.2 15.90 9.500
8307.35 0 111.1 18.22 1.105 9.500
3.6328E-14 110.2 15.89 9.500
8303.52 0 111.1 18.21 1.105 9.500
1.5894E-15 110.3 15.88 9.500
Fit parameter 5 has pegged
8268.41 0 111.3 18.09 1.097 9.500
0.000 110.3 15.77 9.500
Fit parameter 5 has pegged
8195.30 -1 112.1 17.64 1.068 9.500
0.000 111.0 15.46 9.500
Fit parameter 5 has pegged
8167.66 -2 112.6 17.59 1.051 9.500
0.000 111.5 15.33 9.500
Fit parameter 5 has pegged
8165.68 -3 112.8 17.50 1.046 9.500
0.000 111.7 15.28 9.500
Fit parameter 5 has pegged
8165.47 -4 112.8 17.53 1.046 9.500
0.000 111.7 15.28 9.500
Fit parameter 5 has pegged
8165.45 -2 112.8 17.50 1.045 9.500
0.000 111.7 15.27 9.500
Fit parameter 5 has pegged
8165.43 1 112.8 17.50 1.045 9.500
0.000 111.7 15.27 9.500
Fit parameter 5 has pegged
8165.42 2 112.8 17.50 1.045 9.500
0.000 111.7 15.27 9.500
8165.40 3 112.8 17.50 1.045 9.500
0.000 111.7 15.27 9.500
Fit parameter 5 has pegged
8165.37 3 112.8 17.50 1.045 9.500
0.000 111.7 15.27 9.500
Fit parameter 5 has pegged
8165.37 3 112.8 17.50 1.045 9.500
0.000 111.7 15.27 9.500
8165.37 4 112.8 17.50 1.045 9.500
0.000 111.7 15.27 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.39E-05 | -0.01 0.01 -1.00 -0.01 0.04
2.60E-04 | 0.01 -0.01 0.03 0.12 0.99
3.39E-03 | -0.41 -0.91 0.00 -0.02 0.00
3.94E-02 | 0.80 -0.37 -0.02 0.46 -0.06
1.61E-02 | 0.43 -0.18 0.01 -0.88 0.10
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 112.801 +/- 0.170385 1
2 2 1 gaussian Sigma keV 17.5030 +/- 0.931547E-01 1
3 3 1 gaussian norm 1.04537 +/- 0.548246E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 111.714 +/- 0.144662 2
7 7 3 gaussian Sigma keV 15.2695 +/- 0.237831E-01 2
8 3 3 gaussian norm 1.04537 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 8165.370 using 198 PHA bins.
Reduced chi-squared = 42.97563 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 41.449) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 41.449) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8025 photons ( 1.5398E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8137 photons ( 1.5325E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:14 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.795 +/- 5.8286E-03
Net count rate (cts/s) for file 2 2.795 +/- 5.8286E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 734235.0 using 168 PHA bins.
Reduced chi-squared = 4588.969 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 33004.98 using 168 PHA bins.
Reduced chi-squared = 206.2812 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4332.48 -3 86.97 14.91 0.1241 0.9015
0.5107 86.29 14.51 0.8891
2909.60 -4 66.03 19.12 0.2921 0.9611
0.5631 68.18 18.75 0.9570
2033.63 0 69.66 18.60 0.2841 0.9594
0.5617 72.05 18.86 0.9569
1770.30 0 71.21 17.16 0.2798 0.9582
0.5610 73.93 17.23 0.9565
1703.76 0 71.72 16.67 0.2725 0.9568
0.5616 74.62 16.81 0.9555
1415.95 -1 72.68 11.10 0.2142 0.9450
0.5705 75.81 11.07 0.9435
803.850 -2 71.37 10.00 0.1578 0.8969
0.4985 74.98 10.38 0.8969
701.506 -2 70.66 9.735 0.1510 0.8682
0.4447 74.50 9.959 0.8681
627.380 -2 70.50 8.822 0.1499 0.8468
0.4072 74.30 9.760 0.8466
595.296 -2 70.20 8.976 0.1515 0.8301
0.3788 74.15 9.758 0.8297
583.206 -3 69.95 9.010 0.1528 0.7852
0.3085 73.83 9.845 0.7860
547.961 -4 69.85 9.008 0.1532 0.7707
0.2934 73.71 9.857 0.7701
547.830 -5 69.85 8.992 0.1531 0.7710
0.2936 73.71 9.848 0.7699
547.830 -6 69.85 8.995 0.1531 0.7709
0.2935 73.71 9.850 0.7699
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.51E-07 | 0.00 0.00 -0.21 0.46 -0.74 0.00 0.00 0.45
8.47E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.22E-06 | 0.00 0.01 -0.98 -0.09 0.15 0.00 0.01 -0.11
2.39E-04 | 0.02 -0.01 0.01 -0.54 -0.66 0.02 0.00 -0.52
3.05E-02 | -0.17 -0.81 0.00 0.00 0.00 0.05 0.57 0.00
7.54E-02 | 0.28 -0.50 -0.01 0.01 0.01 0.48 -0.66 0.01
4.15E-02 | -0.94 0.00 0.00 -0.01 -0.01 0.15 -0.29 -0.01
4.95E-02 | -0.01 -0.32 0.00 -0.01 -0.01 -0.86 -0.39 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 69.8516 +/- 0.209172 1
2 2 1 gaussian Sigma keV 8.99462 +/- 0.208928 1
3 3 1 gaussian norm 0.153136 +/- 0.325023E-02 1
4 4 2 powerlaw PhoIndex 0.770918 +/- 0.919176E-02 1
5 5 2 powerlaw norm 0.293525 +/- 0.112594E-01 1
6 6 3 gaussian LineE keV 73.7084 +/- 0.235140 2
7 7 3 gaussian Sigma keV 9.84954 +/- 0.232781 2
8 3 3 gaussian norm 0.153136 = par 3 2
9 8 4 powerlaw PhoIndex 0.769866 +/- 0.881258E-02 2
10 5 4 powerlaw norm 0.293525 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 547.8303 using 168 PHA bins.
Reduced chi-squared = 3.423939 for 160 degrees of freedom
Null hypothesis probability = 6.446E-44
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.280) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.280) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.032 photons ( 1.2394E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.036 photons ( 1.2538E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
123.6997
=====best line=====
69.8516 0.209236
=====best sigma=====
8.99458 0.208966
=====norm=====
0.153141 0.324891E-02
=====phoindx=====
0.770913 0.919040E-02
=====pow_norm=====
0.293519 0.112583E-01
=====best line=====
73.7081 0.234943
=====best sigma=====
9.85039 0.232589
=====norm=====
0.153141 par
=====phoindx=====
0.769863 0.881129E-02
=====pow_norm=====
0.293519 par
=====redu_chi=====
3.423940
=====area_flux=====
1.032
=====area_flux_f=====
1.036
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 11 1 640 2000 1117.6256 0 0.153141 0.324891E-02 8.99458 0.208966 0.770913 0.919040E-02 0.293519 0.112583E-01 1.032 640 2000 1179.3296 0 0.153141 0.324891E-02 9.85039 0.232589 0.769863 0.881129E-02 0.293519 0.112583E-01 1.036 3.423940 1
=====redu_chi=====
449.4085
=====best line=====
112.801 0.170385
=====best sigma=====
17.5030 0.931547E-01
=====norm=====
1.04537 0.548246E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.714 0.144662
=====best sigma=====
15.2695 0.237831E-01
=====norm=====
1.04537 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
42.97563
=====area_flux=====
0.8025
=====area_flux_f=====
0.8137
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 11 1 1600 3200 1804.816 0 1.04537 0.548246E-02 280.048 1.4904752 9.50000 -1.00000 0.00000 -1.00000 0.8025 1600 3200 1787.424 0 1.04537 0.548246E-02 244.312 0.3805296 9.50000 -1.00000 0.00000 -1.00000 0.8137 42.97563 1
=====redu_chi=====
206.2812
=====best line=====
69.8516 0.209172
=====best sigma=====
8.99462 0.208928
=====norm=====
0.153136 0.325023E-02
=====phoindx=====
0.770918 0.919176E-02
=====pow_norm=====
0.293525 0.112594E-01
=====best line=====
73.7084 0.235140
=====best sigma=====
9.84954 0.232781
=====norm=====
0.153136 par
=====phoindx=====
0.769866 0.881258E-02
=====pow_norm=====
0.293525 par
=====redu_chi=====
3.423939
=====area_flux=====
1.032
=====area_flux_f=====
1.036
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 11 1 640 2000 1117.6256 0 0.153136 0.325023E-02 8.99462 0.208928 0.770918 0.919176E-02 0.293525 0.112594E-01 1.032 640 2000 1179.3344 0 0.153136 0.325023E-02 9.84954 0.232781 0.769866 0.881258E-02 0.293525 0.112594E-01 1.036 3.423939 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:14 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.458 +/- 5.4652E-03
Net count rate (cts/s) for file 2 2.458 +/- 5.4652E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 639619.3 using 168 PHA bins.
Reduced chi-squared = 3997.621 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11535.71 using 168 PHA bins.
Reduced chi-squared = 72.09817 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1824.29 -3 84.57 15.41 0.1682 0.8733
0.4119 84.77 14.78 0.8715
1048.03 -3 78.77 8.917 9.7367E-02 0.7985
0.3111 80.10 9.009 0.8013
949.747 -2 78.99 10.70 0.1369 0.8147
0.3265 81.22 13.51 0.8154
724.228 -3 79.73 9.771 0.1204 0.8472
0.3772 81.37 9.326 0.8465
705.266 -2 79.26 9.909 0.1396 0.8525
0.3835 81.24 11.59 0.8534
645.871 -3 79.46 9.566 0.1348 0.8629
0.4021 81.35 9.881 0.8632
643.157 -1 79.36 9.818 0.1388 0.8630
0.4018 81.30 10.22 0.8641
641.631 -2 79.40 9.809 0.1395 0.8647
0.4043 81.30 9.996 0.8657
641.184 -3 79.42 9.853 0.1403 0.8695
0.4120 81.32 10.12 0.8704
641.118 -4 79.44 9.845 0.1402 0.8711
0.4151 81.33 10.03 0.8721
641.044 -5 79.44 9.857 0.1404 0.8713
0.4154 81.34 10.10 0.8724
641.039 0 79.44 9.856 0.1404 0.8713
0.4154 81.33 10.07 0.8724
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.21E-07 | 0.00 0.00 -0.28 0.54 -0.61 0.00 0.00 0.51
9.33E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.76E-06 | 0.00 0.01 -0.96 -0.14 0.20 0.00 0.03 -0.15
3.99E-04 | 0.02 0.01 -0.02 -0.46 -0.77 0.02 0.07 -0.44
2.65E-03 | 0.00 -0.09 0.02 0.03 0.05 0.01 0.99 0.03
6.27E-02 | 0.55 -0.57 0.00 0.01 0.01 0.61 -0.06 0.00
5.17E-02 | -0.84 -0.43 0.00 -0.01 -0.01 0.34 -0.04 -0.01
5.57E-02 | 0.07 -0.69 -0.01 -0.01 -0.02 -0.72 -0.05 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.4410 +/- 0.234481 1
2 2 1 gaussian Sigma keV 9.85633 +/- 0.238419 1
3 3 1 gaussian norm 0.140437 +/- 0.315924E-02 1
4 4 2 powerlaw PhoIndex 0.871272 +/- 0.100326E-01 1
5 5 2 powerlaw norm 0.415449 +/- 0.165598E-01 1
6 6 3 gaussian LineE keV 81.3346 +/- 0.240401 2
7 7 3 gaussian Sigma keV 10.0737 +/- 0.554081E-01 2
8 3 3 gaussian norm 0.140437 = par 3 2
9 8 4 powerlaw PhoIndex 0.872358 +/- 0.963225E-02 2
10 5 4 powerlaw norm 0.415449 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 641.0392 using 168 PHA bins.
Reduced chi-squared = 4.006495 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.839) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.839) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9509 photons ( 1.1534E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9471 photons ( 1.1530E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:14 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.849 +/- 8.4313E-03
Net count rate (cts/s) for file 2 5.849 +/- 8.4313E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.391 +/- 1.0048E-02( 58.0% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.391 +/- 1.0048E-02( 58.0% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 7533456. using 198 PHA bins.
Reduced chi-squared = 39649.77 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 100959.7 using 198 PHA bins.
Reduced chi-squared = 531.3670 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
53908.8 -3 117.7 17.66 0.4176 2.905
0.2589 113.7 19.34 2.867
53723.3 2 117.8 17.66 0.4182 2.199
0.7886 113.8 19.33 2.613
52817.8 1 117.9 17.60 0.4245 2.157
0.9818 114.1 19.27 2.416
45032.8 0 119.4 17.22 0.4800 1.954
2.175 117.0 18.09 2.022
25168.3 0 122.8 18.47 0.7389 1.921
2.260 123.5 18.64 2.069
19369.3 -1 120.3 19.17 1.168 1.984
1.084 120.4 19.36 2.747
18868.9 0 120.5 19.33 1.153 2.055
0.7040 120.5 19.36 9.375
18652.6 0 120.8 19.35 1.142 2.177
0.3603 120.7 19.36 9.467
18514.7 0 121.0 19.36 1.135 2.432
8.2890E-02 120.8 19.37 9.487
18422.0 0 121.3 19.37 1.131 5.966
3.9176E-02 120.9 19.37 9.499
18364.9 0 121.4 19.37 1.129 8.104
1.2935E-02 120.9 19.37 9.500
18324.7 0 121.6 19.37 1.127 9.491
5.3369E-03 121.0 19.37 9.500
18296.0 0 121.7 19.37 1.126 9.497
4.4606E-04 121.1 19.37 9.500
18272.6 0 121.8 19.37 1.126 9.500
2.1680E-04 121.1 19.37 9.500
18249.0 0 121.9 19.37 1.124 9.500
1.0015E-04 121.2 19.37 9.500
18232.1 0 121.9 19.37 1.124 9.500
4.0049E-05 121.2 19.37 9.500
18216.9 0 122.0 19.37 1.123 9.500
9.6261E-06 121.2 19.37 9.500
18198.1 0 122.0 19.37 1.122 9.500
6.2523E-07 121.2 19.37 9.500
18179.1 0 122.1 19.37 1.120 9.500
1.2781E-07 121.2 19.37 9.500
18175.0 0 122.1 19.37 1.120 9.500
4.1619E-08 121.2 19.37 9.500
18172.4 0 122.1 19.37 1.120 9.500
2.0070E-08 121.2 19.37 9.500
18165.1 0 122.1 19.37 1.119 9.500
9.1217E-09 121.2 19.37 9.500
18163.6 0 122.1 19.37 1.119 9.500
3.6910E-09 121.2 19.37 9.500
18110.5 0 122.2 19.37 1.114 9.500
1.2054E-09 121.2 19.37 9.500
18063.4 0 122.2 19.37 1.110 9.500
5.8101E-10 121.3 19.37 9.500
18021.7 0 122.3 19.37 1.106 9.500
2.6819E-10 121.3 19.37 9.500
17984.7 0 122.4 19.37 1.102 9.500
1.1158E-10 121.3 19.37 9.500
17951.6 0 122.4 19.37 1.099 9.500
3.2889E-11 121.4 19.37 9.500
17922.0 0 122.5 19.37 1.096 9.500
1.3246E-11 121.4 19.37 9.500
17895.5 0 122.6 19.37 1.093 9.500
3.3519E-12 121.5 19.37 9.500
17871.6 0 122.6 19.37 1.090 9.500
8.8581E-13 121.5 19.37 9.500
17850.2 0 122.7 19.37 1.088 9.500
2.6729E-13 121.5 19.37 9.500
17830.6 0 122.7 19.37 1.085 9.500
1.1162E-13 121.6 19.37 9.500
17812.9 0 122.8 19.37 1.083 9.500
3.3359E-14 121.6 19.37 9.500
Fit parameter 5 has pegged
17782.5 0 122.9 19.37 1.079 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
17769.4 0 123.0 19.37 1.078 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
17757.5 0 123.0 19.37 1.076 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
17746.5 0 123.1 19.37 1.075 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
17736.5 0 123.1 19.37 1.073 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
17727.4 0 123.2 19.37 1.072 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
17718.9 0 123.2 19.37 1.071 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
17711.1 0 123.3 19.37 1.069 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
17704.1 0 123.3 19.37 1.068 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
17697.4 0 123.3 19.37 1.067 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
17691.4 0 123.4 19.37 1.066 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
17685.8 0 123.4 19.37 1.066 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
17680.7 0 123.5 19.37 1.065 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
17675.9 0 123.5 19.37 1.064 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
17671.5 0 123.5 19.37 1.063 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
17667.4 0 123.6 19.37 1.063 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
17663.6 0 123.6 19.37 1.062 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
17660.0 0 123.6 19.37 1.061 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17656.8 0 123.6 19.37 1.061 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17653.8 0 123.7 19.37 1.060 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17650.9 0 123.7 19.37 1.060 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17648.3 0 123.7 19.37 1.059 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17645.8 0 123.8 19.37 1.059 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17643.6 0 123.8 19.37 1.058 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17641.4 0 123.8 19.37 1.058 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17639.5 0 123.8 19.37 1.058 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17637.7 0 123.8 19.37 1.057 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
17635.9 0 123.9 19.37 1.057 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17634.4 0 123.9 19.37 1.057 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17632.8 0 123.9 19.37 1.056 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17631.4 0 123.9 19.37 1.056 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17630.1 0 123.9 19.37 1.056 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17628.8 0 124.0 19.37 1.055 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17627.7 0 124.0 19.37 1.055 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17626.6 0 124.0 19.37 1.055 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17625.6 0 124.0 19.37 1.055 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17624.6 0 124.0 19.37 1.054 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17623.7 0 124.0 19.37 1.054 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17622.9 0 124.0 19.37 1.054 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17622.1 0 124.1 19.37 1.054 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17621.3 0 124.1 19.37 1.054 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17620.6 0 124.1 19.37 1.054 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17619.9 0 124.1 19.37 1.053 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17619.4 0 124.1 19.37 1.053 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17618.8 0 124.1 19.37 1.053 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17618.2 0 124.1 19.37 1.053 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17617.7 0 124.1 19.37 1.053 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
17617.1 0 124.1 19.37 1.053 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17616.7 0 124.2 19.37 1.053 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17616.3 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17615.9 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17615.5 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17615.1 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17614.8 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17614.4 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17614.1 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17613.8 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17613.6 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17613.3 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17613.0 0 124.2 19.37 1.052 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17612.8 0 124.2 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17612.6 0 124.2 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17612.4 0 124.2 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17612.3 0 124.2 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17612.0 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17611.8 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17611.6 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17611.4 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17611.2 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17611.2 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17611.0 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17610.8 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17610.7 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17610.6 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17610.4 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17610.3 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17610.3 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17610.2 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17610.1 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17610.0 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.9 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.9 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.8 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.7 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.6 0 124.3 19.37 1.051 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.5 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.5 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.4 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.3 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.3 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.2 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.2 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.1 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.0 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17609.0 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.9 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.9 1 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.8 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.8 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.7 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.7 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.7 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.5 1 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.5 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
17608.4 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.3 1 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.3 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.2 1 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.1 1 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.1 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17608.1 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
17608.0 0 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.9 1 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.9 1 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.7 1 124.3 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.6 1 124.4 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.5 1 124.4 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.4 1 124.4 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.3 1 124.4 19.37 1.050 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.2 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.1 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17607.0 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.9 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.8 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.8 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.7 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.6 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.5 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.4 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.3 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.2 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.1 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.0 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17606.0 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.8 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.7 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.7 1 124.4 19.37 1.049 9.500
0.000 122.2 19.37 9.500
17605.5 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.4 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.4 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.3 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.2 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.2 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.0 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17605.0 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17604.9 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17604.8 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17604.8 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
17604.6 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17604.6 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
17604.5 1 124.4 19.37 1.048 9.500
0.000 122.2 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.23E-05 | 0.00 0.00 -1.00 -0.01 0.00
1.76E-02 | -0.98 -0.03 0.01 -0.19 -0.02
1.47E-02 | -0.19 0.00 0.00 0.98 0.06
3.52E+00 | -0.03 0.95 0.00 -0.03 0.32
1.81E+00 | 0.00 -0.32 0.00 -0.05 0.94
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 124.399 +/- 0.143073 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.82601 1
3 3 1 gaussian norm 1.04772 +/- 0.448771E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 122.244 +/- 0.148131 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.40691 2
8 3 3 gaussian norm 1.04772 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 17604.50 using 198 PHA bins.
Reduced chi-squared = 92.65525 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 89.363) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 89.363) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9388 photons ( 1.9297E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9163 photons ( 1.8616E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:15 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.458 +/- 5.4652E-03
Net count rate (cts/s) for file 2 2.458 +/- 5.4652E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 729725.6 using 168 PHA bins.
Reduced chi-squared = 4560.785 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19946.65 using 168 PHA bins.
Reduced chi-squared = 124.6665 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1900.36 -3 86.49 13.22 0.1390 0.8977
0.4598 86.69 12.10 0.8933
990.455 -4 77.79 13.05 0.1405 0.8432
0.3611 79.79 11.36 0.8456
829.501 -5 81.46 9.460 0.1210 0.8860
0.4398 81.97 9.795 0.8849
745.265 -1 79.53 11.82 0.1387 0.8845
0.4398 81.43 10.37 0.8852
652.576 -2 80.08 9.835 0.1361 0.8813
0.4363 81.45 9.970 0.8827
648.247 -3 79.43 10.30 0.1420 0.8754
0.4223 81.35 10.42 0.8768
642.548 -4 79.56 9.948 0.1386 0.8706
0.4153 81.35 9.989 0.8718
641.108 -5 79.46 9.862 0.1405 0.8716
0.4159 81.34 10.13 0.8727
641.083 -1 79.45 9.858 0.1404 0.8716
0.4159 81.34 10.04 0.8726
641.038 -2 79.44 9.855 0.1404 0.8715
0.4159 81.34 10.08 0.8726
641.038 1 79.44 9.855 0.1404 0.8715
0.4159 81.34 10.08 0.8726
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.22E-07 | 0.00 0.00 -0.28 0.54 -0.61 0.00 0.00 0.51
9.33E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.75E-06 | 0.00 0.01 -0.96 -0.14 0.20 0.00 0.02 -0.15
3.99E-04 | 0.02 0.01 -0.02 -0.46 -0.77 0.02 0.06 -0.44
2.79E-03 | 0.00 -0.09 0.02 0.03 0.04 0.01 0.99 0.03
6.26E-02 | 0.55 -0.58 0.00 0.00 0.01 0.60 -0.06 0.00
5.17E-02 | -0.83 -0.42 0.00 -0.01 -0.01 0.35 -0.04 -0.01
5.55E-02 | 0.05 -0.69 -0.01 -0.01 -0.02 -0.72 -0.05 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.4441 +/- 0.234424 1
2 2 1 gaussian Sigma keV 9.85486 +/- 0.238322 1
3 3 1 gaussian norm 0.140405 +/- 0.315728E-02 1
4 4 2 powerlaw PhoIndex 0.871486 +/- 0.100309E-01 1
5 5 2 powerlaw norm 0.415850 +/- 0.165727E-01 1
6 6 3 gaussian LineE keV 81.3369 +/- 0.239903 2
7 7 3 gaussian Sigma keV 10.0816 +/- 0.569240E-01 2
8 3 3 gaussian norm 0.140405 = par 3 2
9 8 4 powerlaw PhoIndex 0.872575 +/- 0.963058E-02 2
10 5 4 powerlaw norm 0.415850 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 641.0380 using 168 PHA bins.
Reduced chi-squared = 4.006488 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.839) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.839) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9509 photons ( 1.1534E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9471 photons ( 1.1530E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
72.09817
=====best line=====
79.4410 0.234481
=====best sigma=====
9.85633 0.238419
=====norm=====
0.140437 0.315924E-02
=====phoindx=====
0.871272 0.100326E-01
=====pow_norm=====
0.415449 0.165598E-01
=====best line=====
81.3346 0.240401
=====best sigma=====
10.0737 0.554081E-01
=====norm=====
0.140437 par
=====phoindx=====
0.872358 0.963225E-02
=====pow_norm=====
0.415449 par
=====redu_chi=====
4.006495
=====area_flux=====
0.9509
=====area_flux_f=====
0.9471
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 12 1 640 2000 1271.056 0 0.140437 0.315924E-02 9.85633 0.238419 0.871272 0.100326E-01 0.415449 0.165598E-01 0.9509 640 2000 1301.3536 0 0.140437 0.315924E-02 10.0737 0.554081E-01 0.872358 0.963225E-02 0.415449 0.165598E-01 0.9471 4.006495 1
=====redu_chi=====
531.3670
=====best line=====
124.399 0.143073
=====best sigma=====
19.3655 1.82601
=====norm=====
1.04772 0.448771E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
122.244 0.148131
=====best sigma=====
19.3655 1.40691
=====norm=====
1.04772 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
92.65525
=====area_flux=====
0.9388
=====area_flux_f=====
0.9163
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 12 1 1600 3200 1990.384 0 1.04772 0.448771E-02 309.848 29.21616 9.50000 -1.00000 0.00000 -1.00000 0.9388 1600 3200 1955.904 0 1.04772 0.448771E-02 309.848 22.51056 9.50000 -1.00000 0.00000 -1.00000 0.9163 92.65525 1
=====redu_chi=====
124.6665
=====best line=====
79.4441 0.234424
=====best sigma=====
9.85486 0.238322
=====norm=====
0.140405 0.315728E-02
=====phoindx=====
0.871486 0.100309E-01
=====pow_norm=====
0.415850 0.165727E-01
=====best line=====
81.3369 0.239903
=====best sigma=====
10.0816 0.569240E-01
=====norm=====
0.140405 par
=====phoindx=====
0.872575 0.963058E-02
=====pow_norm=====
0.415850 par
=====redu_chi=====
4.006488
=====area_flux=====
0.9509
=====area_flux_f=====
0.9471
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 12 1 640 2000 1271.1056 0 0.140405 0.315728E-02 9.85486 0.238322 0.871486 0.100309E-01 0.415850 0.165727E-01 0.9509 640 2000 1301.3904 0 0.140405 0.315728E-02 10.0816 0.569240E-01 0.872575 0.963058E-02 0.415850 0.165727E-01 0.9471 4.006488 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:15 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.289 +/- 6.3227E-03
Net count rate (cts/s) for file 2 3.289 +/- 6.3227E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 304720.8 using 168 PHA bins.
Reduced chi-squared = 1904.505 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 9022.884 using 168 PHA bins.
Reduced chi-squared = 56.39302 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1808.84 -3 86.95 12.99 0.1887 0.7708
0.3828 87.88 12.35 0.7714
954.226 -4 83.28 9.591 0.1465 0.7319
0.3171 85.63 9.686 0.7334
839.814 -2 83.81 9.565 0.1745 0.7439
0.3284 86.03 11.11 0.7436
791.826 -3 83.88 9.690 0.1772 0.7739
0.3687 86.15 9.962 0.7725
788.372 -2 83.89 9.792 0.1808 0.7760
0.3751 86.14 10.86 0.7758
773.026 -3 83.96 9.745 0.1800 0.7848
0.3891 86.20 10.02 0.7843
772.672 -3 83.96 9.877 0.1834 0.7900
0.3973 86.21 10.52 0.7898
770.658 -4 83.99 9.813 0.1823 0.7906
0.3990 86.22 10.20 0.7905
770.512 -5 83.98 9.870 0.1835 0.7921
0.4011 86.22 10.32 0.7920
770.476 -6 83.99 9.844 0.1831 0.7916
0.4005 86.22 10.27 0.7916
770.471 -7 83.99 9.856 0.1832 0.7918
0.4008 86.22 10.29 0.7918
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.84E-07 | 0.00 0.00 -0.20 0.54 -0.63 0.00 0.00 0.52
6.84E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.97E-06 | 0.00 0.01 -0.98 -0.08 0.17 0.00 0.04 -0.09
3.05E-04 | 0.02 0.02 -0.05 -0.46 -0.75 0.02 0.16 -0.44
1.24E-03 | -0.01 -0.08 0.05 0.08 0.11 0.00 0.98 0.08
4.05E-02 | 0.91 0.18 0.00 0.01 0.01 -0.38 0.02 0.01
4.72E-02 | -0.31 -0.30 0.00 -0.02 -0.02 -0.90 -0.02 -0.01
4.69E-02 | -0.28 0.93 0.01 0.01 0.01 -0.22 0.07 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.9864 +/- 0.204039 1
2 2 1 gaussian Sigma keV 9.85612 +/- 0.215570 1
3 3 1 gaussian norm 0.183243 +/- 0.391312E-02 1
4 4 2 powerlaw PhoIndex 0.791816 +/- 0.957631E-02 1
5 5 2 powerlaw norm 0.400779 +/- 0.150204E-01 1
6 6 3 gaussian LineE keV 86.2182 +/- 0.215062 2
7 7 3 gaussian Sigma keV 10.2854 +/- 0.380519E-01 2
8 3 3 gaussian norm 0.183243 = par 3 2
9 8 4 powerlaw PhoIndex 0.791763 +/- 0.919956E-02 2
10 5 4 powerlaw norm 0.400779 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 770.4711 using 168 PHA bins.
Reduced chi-squared = 4.815444 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.614) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.614) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.281 photons ( 1.5774E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.281 photons ( 1.5842E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:15 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.504 +/- 9.5503E-03
Net count rate (cts/s) for file 2 7.504 +/- 9.5503E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.215 +/- 1.1454E-02( 56.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.215 +/- 1.1454E-02( 56.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 4916632. using 198 PHA bins.
Reduced chi-squared = 25877.01 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 122266.5 using 198 PHA bins.
Reduced chi-squared = 643.5081 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
65468.8 -3 113.9 19.24 0.5623 2.850
0.3749 116.3 19.10 2.837
45473.3 -4 110.7 19.34 1.866 7.070
4214. 113.0 19.28 7.387
43237.1 0 111.0 19.36 1.828 9.492
180.1 113.3 19.36 8.789
36856.6 0 112.7 19.36 1.701 9.498
68.40 114.8 19.36 9.400
32474.2 0 114.5 19.37 1.620 9.500
16.36 116.4 19.36 9.470
29395.1 0 116.2 19.37 1.568 9.500
6.058 117.9 19.37 9.486
27220.2 0 117.7 19.37 1.532 9.500
2.646 119.3 19.37 9.494
25738.5 0 118.9 19.37 1.507 9.500
0.5718 120.4 19.37 9.500
24741.8 0 119.9 19.37 1.490 9.500
0.2732 121.2 19.37 9.500
24055.8 0 120.7 19.37 1.476 9.500
0.1118 121.9 19.37 9.500
23589.3 0 121.3 19.37 1.465 9.500
2.7043E-02 122.5 19.37 9.500
23266.6 0 121.8 19.37 1.457 9.500
4.6571E-03 122.9 19.37 9.500
23033.8 0 122.1 19.37 1.450 9.500
5.9652E-04 123.2 19.37 9.500
22869.3 0 122.4 19.37 1.444 9.500
2.4728E-04 123.5 19.37 9.500
22744.2 0 122.7 19.37 1.440 9.500
6.0251E-05 123.6 19.37 9.500
22599.7 0 123.0 19.37 1.434 9.500
5.1064E-06 123.9 19.37 9.500
22550.4 0 123.1 19.37 1.432 9.500
1.8247E-06 124.0 19.37 9.500
22471.6 0 123.2 19.37 1.427 9.500
4.3318E-08 124.0 19.37 9.500
22437.0 0 123.3 19.37 1.425 9.500
8.2456E-09 124.0 19.37 9.500
22424.4 0 123.4 19.37 1.424 9.500
3.8752E-09 124.0 19.37 9.500
22412.5 0 123.4 19.37 1.424 9.500
1.6490E-09 124.0 19.37 9.500
22408.3 0 123.4 19.37 1.424 9.500
5.4019E-10 124.0 19.37 9.500
22402.6 0 123.5 19.37 1.423 9.500
2.6240E-10 124.0 19.37 9.500
22398.8 0 123.5 19.37 1.423 9.500
1.2446E-10 124.0 19.37 9.500
22394.1 0 123.5 19.37 1.423 9.500
5.5208E-11 124.0 19.37 9.500
22314.8 0 123.5 19.37 1.416 9.500
2.6012E-11 124.0 19.37 9.500
22245.2 0 123.6 19.37 1.410 9.500
1.1341E-11 124.1 19.37 9.500
22184.3 0 123.7 19.37 1.404 9.500
4.0025E-12 124.1 19.37 9.500
22130.9 0 123.7 19.37 1.399 9.500
3.3606E-13 124.2 19.37 9.500
22083.7 0 123.8 19.37 1.394 9.500
1.0576E-13 124.2 19.37 9.500
Fit parameter 5 has pegged
22005.1 0 123.9 19.37 1.386 9.500
0.000 124.3 19.37 9.500
Fit parameter 5 has pegged
21972.2 0 124.0 19.37 1.382 9.500
0.000 124.3 19.37 9.500
Fit parameter 5 has pegged
21942.9 0 124.0 19.37 1.379 9.500
0.000 124.3 19.37 9.500
Fit parameter 5 has pegged
21916.6 0 124.1 19.37 1.375 9.500
0.000 124.3 19.37 9.500
Fit parameter 5 has pegged
21893.2 0 124.1 19.37 1.372 9.500
0.000 124.4 19.37 9.500
Fit parameter 5 has pegged
21872.2 0 124.2 19.37 1.370 9.500
0.000 124.4 19.37 9.500
Fit parameter 5 has pegged
21853.3 0 124.3 19.37 1.367 9.500
0.000 124.4 19.37 9.500
Fit parameter 5 has pegged
21836.1 0 124.3 19.37 1.365 9.500
0.000 124.5 19.37 9.500
Fit parameter 5 has pegged
21820.5 0 124.3 19.37 1.363 9.500
0.000 124.5 19.37 9.500
Fit parameter 5 has pegged
21806.5 0 124.4 19.37 1.361 9.500
0.000 124.5 19.37 9.500
Fit parameter 5 has pegged
21793.6 0 124.4 19.37 1.359 9.500
0.000 124.5 19.37 9.500
Fit parameter 5 has pegged
21782.0 0 124.5 19.37 1.357 9.500
0.000 124.5 19.37 9.500
Fit parameter 5 has pegged
21771.4 0 124.5 19.37 1.355 9.500
0.000 124.6 19.37 9.500
Fit parameter 5 has pegged
21761.8 0 124.6 19.37 1.354 9.500
0.000 124.6 19.37 9.500
Fit parameter 5 has pegged
21753.0 0 124.6 19.37 1.352 9.500
0.000 124.6 19.37 9.500
Fit parameter 5 has pegged
21744.9 0 124.6 19.37 1.351 9.500
0.000 124.6 19.37 9.500
Fit parameter 5 has pegged
21737.5 0 124.7 19.37 1.350 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
21730.8 0 124.7 19.37 1.349 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
21724.6 0 124.8 19.37 1.348 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
21718.8 0 124.8 19.37 1.347 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
21713.5 0 124.8 19.37 1.346 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
21708.7 0 124.8 19.37 1.345 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
21704.3 0 124.9 19.37 1.344 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
21700.1 0 124.9 19.37 1.343 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
21696.3 0 124.9 19.37 1.343 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
21692.8 0 125.0 19.37 1.342 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
21689.5 0 125.0 19.37 1.341 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
21686.5 0 125.0 19.37 1.341 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
21683.6 0 125.0 19.37 1.340 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
21681.2 0 125.0 19.37 1.340 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
21678.7 0 125.1 19.37 1.339 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
21676.5 0 125.1 19.37 1.339 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
21674.4 0 125.1 19.37 1.338 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21672.5 0 125.1 19.37 1.338 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21670.7 0 125.1 19.37 1.338 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21669.0 0 125.2 19.37 1.337 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21667.4 0 125.2 19.37 1.337 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21666.0 0 125.2 19.37 1.337 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21664.7 0 125.2 19.37 1.336 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21663.4 0 125.2 19.37 1.336 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21662.2 0 125.2 19.37 1.336 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21661.2 0 125.2 19.37 1.335 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21660.1 0 125.3 19.37 1.335 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21659.1 0 125.3 19.37 1.335 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21658.3 0 125.3 19.37 1.335 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21657.4 0 125.3 19.37 1.335 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21656.5 0 125.3 19.37 1.334 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21655.8 0 125.3 19.37 1.334 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21655.1 0 125.3 19.37 1.334 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
21654.6 0 125.3 19.37 1.334 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21653.9 0 125.3 19.37 1.334 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21653.3 0 125.4 19.37 1.334 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21652.8 0 125.4 19.37 1.333 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21652.3 0 125.4 19.37 1.333 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21651.7 0 125.4 19.37 1.333 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21651.3 0 125.4 19.37 1.333 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21650.9 0 125.4 19.37 1.333 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21650.5 0 125.4 19.37 1.333 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21650.1 0 125.4 19.37 1.333 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21649.8 0 125.4 19.37 1.333 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21649.4 0 125.4 19.37 1.333 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21649.1 0 125.4 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21648.7 0 125.4 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21648.5 0 125.4 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21648.2 0 125.4 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21648.0 0 125.4 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21647.7 0 125.4 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21647.5 0 125.4 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21647.3 0 125.5 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21647.1 0 125.5 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21646.9 0 125.5 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21646.7 0 125.5 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21646.5 0 125.5 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21646.4 0 125.5 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21646.2 0 125.5 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21646.1 0 125.5 19.37 1.332 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21646.0 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21645.8 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21645.7 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21645.5 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21645.4 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21645.3 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21645.2 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21645.0 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21645.0 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.9 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.8 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.6 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.5 1 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.4 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.3 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.3 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.2 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.2 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.2 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.1 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.1 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.1 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.0 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21644.0 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.9 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.9 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.7 1 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.7 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.7 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.5 1 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.3 1 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.3 0 125.5 19.37 1.331 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.2 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.0 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21643.0 0 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21642.8 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21642.7 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21642.7 0 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
21642.4 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21642.2 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21642.1 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21641.9 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21641.8 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21641.6 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21641.5 1 125.5 19.37 1.330 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21641.3 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21641.2 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21641.1 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21640.9 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21640.8 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21640.6 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21640.5 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21640.4 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21640.2 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21640.1 1 125.5 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21640.1 1 125.6 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21639.8 1 125.6 19.37 1.329 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21639.8 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21639.6 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21639.6 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
21639.3 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21639.2 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21639.1 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21638.9 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21638.8 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21638.7 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21638.6 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21638.5 1 125.6 19.37 1.328 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
21638.4 1 125.6 19.37 1.328 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21638.3 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21638.1 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21638.1 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.9 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.9 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.8 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.7 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.6 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.5 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.4 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.3 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.2 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.2 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.1 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21637.0 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
21636.9 1 125.6 19.37 1.327 9.500
0.000 125.1 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.62E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.42E-02 | 0.98 0.02 -0.01 0.17 0.01
1.22E-02 | 0.17 0.00 0.00 -0.98 -0.05
3.18E+00 | -0.02 0.95 0.00 -0.02 0.31
1.63E+00 | 0.00 -0.31 0.00 -0.04 0.95
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 125.585 +/- 0.126273 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.74192 1
3 3 1 gaussian norm 1.32651 +/- 0.507505E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 125.063 +/- 0.128163 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.33086 2
8 3 3 gaussian norm 1.32651 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 21636.91 using 198 PHA bins.
Reduced chi-squared = 113.8785 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square (109.832) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square (109.832) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.203 photons ( 2.4884E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.197 photons ( 2.4687E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:16 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.289 +/- 6.3227E-03
Net count rate (cts/s) for file 2 3.289 +/- 6.3227E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 354769.3 using 168 PHA bins.
Reduced chi-squared = 2217.308 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18185.01 using 168 PHA bins.
Reduced chi-squared = 113.6563 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2275.56 -3 87.72 11.62 0.1972 0.8085
0.4577 88.57 10.97 0.8073
815.063 -4 83.76 10.49 0.1790 0.7799
0.3793 86.14 10.30 0.7814
773.338 -5 84.13 9.928 0.1800 0.7893
0.3966 86.22 10.16 0.7889
770.607 -6 83.99 9.859 0.1834 0.7922
0.4011 86.22 10.34 0.7920
770.477 -7 83.99 9.847 0.1830 0.7916
0.4005 86.22 10.27 0.7915
770.471 -8 83.99 9.855 0.1832 0.7918
0.4008 86.22 10.29 0.7918
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.84E-07 | 0.00 0.00 -0.20 0.54 -0.63 0.00 0.00 0.52
6.84E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.97E-06 | 0.00 0.01 -0.98 -0.08 0.17 0.00 0.04 -0.09
3.06E-04 | 0.02 0.02 -0.05 -0.46 -0.75 0.02 0.16 -0.44
1.26E-03 | -0.01 -0.08 0.05 0.08 0.11 0.00 0.98 0.08
4.05E-02 | 0.91 0.18 0.00 0.01 0.01 -0.38 0.02 0.01
4.70E-02 | -0.31 0.90 0.01 0.01 0.01 -0.29 0.07 0.01
4.72E-02 | 0.29 0.38 0.00 0.02 0.02 0.88 0.02 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.9866 +/- 0.204137 1
2 2 1 gaussian Sigma keV 9.85537 +/- 0.215660 1
3 3 1 gaussian norm 0.183240 +/- 0.391290E-02 1
4 4 2 powerlaw PhoIndex 0.791815 +/- 0.957538E-02 1
5 5 2 powerlaw norm 0.400776 +/- 0.150167E-01 1
6 6 3 gaussian LineE keV 86.2183 +/- 0.214921 2
7 7 3 gaussian Sigma keV 10.2863 +/- 0.383348E-01 2
8 3 3 gaussian norm 0.183240 = par 3 2
9 8 4 powerlaw PhoIndex 0.791761 +/- 0.919862E-02 2
10 5 4 powerlaw norm 0.400776 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 770.4711 using 168 PHA bins.
Reduced chi-squared = 4.815444 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.614) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.614) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.281 photons ( 1.5774E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.281 photons ( 1.5842E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
56.39302
=====best line=====
83.9864 0.204039
=====best sigma=====
9.85612 0.215570
=====norm=====
0.183243 0.391312E-02
=====phoindx=====
0.791816 0.957631E-02
=====pow_norm=====
0.400779 0.150204E-01
=====best line=====
86.2182 0.215062
=====best sigma=====
10.2854 0.380519E-01
=====norm=====
0.183243 par
=====phoindx=====
0.791763 0.919956E-02
=====pow_norm=====
0.400779 par
=====redu_chi=====
4.815444
=====area_flux=====
1.281
=====area_flux_f=====
1.281
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 13 1 640 2000 1343.7824 0 0.183243 0.391312E-02 9.85612 0.215570 0.791816 0.957631E-02 0.400779 0.150204E-01 1.281 640 2000 1379.4912 0 0.183243 0.391312E-02 10.2854 0.380519E-01 0.791763 0.919956E-02 0.400779 0.150204E-01 1.281 4.815444 1
=====redu_chi=====
643.5081
=====best line=====
125.585 0.126273
=====best sigma=====
19.3655 1.74192
=====norm=====
1.32651 0.507505E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
125.063 0.128163
=====best sigma=====
19.3655 1.33086
=====norm=====
1.32651 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
113.8785
=====area_flux=====
1.203
=====area_flux_f=====
1.197
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 13 1 1600 3200 2009.36 0 1.32651 0.507505E-02 309.848 27.87072 9.50000 -1.00000 0.00000 -1.00000 1.203 1600 3200 2001.008 0 1.32651 0.507505E-02 309.848 21.29376 9.50000 -1.00000 0.00000 -1.00000 1.197 113.8785 1
=====redu_chi=====
113.6563
=====best line=====
83.9866 0.204137
=====best sigma=====
9.85537 0.215660
=====norm=====
0.183240 0.391290E-02
=====phoindx=====
0.791815 0.957538E-02
=====pow_norm=====
0.400776 0.150167E-01
=====best line=====
86.2183 0.214921
=====best sigma=====
10.2863 0.383348E-01
=====norm=====
0.183240 par
=====phoindx=====
0.791761 0.919862E-02
=====pow_norm=====
0.400776 par
=====redu_chi=====
4.815444
=====area_flux=====
1.281
=====area_flux_f=====
1.281
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 13 1 640 2000 1343.7856 0 0.183240 0.391290E-02 9.85537 0.215660 0.791815 0.957538E-02 0.400776 0.150167E-01 1.281 640 2000 1379.4928 0 0.183240 0.391290E-02 10.2863 0.383348E-01 0.791761 0.919862E-02 0.400776 0.150167E-01 1.281 4.815444 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:16 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.495 +/- 5.5069E-03
Net count rate (cts/s) for file 2 2.495 +/- 5.5069E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 639210.3 using 168 PHA bins.
Reduced chi-squared = 3995.064 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15186.85 using 168 PHA bins.
Reduced chi-squared = 94.91783 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2988.64 -3 83.48 16.52 0.2040 0.9644
0.5286 83.59 16.18 0.9587
1575.02 -3 76.41 9.162 0.1249 0.8196
0.3247 77.53 9.050 0.8246
1054.02 -4 76.70 9.618 0.1456 0.8906
0.4346 78.77 11.01 0.8875
715.031 -5 76.82 9.311 0.1411 0.8874
0.4568 78.77 9.893 0.8875
711.477 -6 76.73 9.539 0.1448 0.8886
0.4579 78.76 9.777 0.8891
711.378 -7 76.78 9.468 0.1444 0.8888
0.4585 78.77 9.779 0.8894
711.366 -8 76.76 9.494 0.1446 0.8888
0.4584 78.77 9.788 0.8894
711.364 -9 76.77 9.484 0.1445 0.8888
0.4584 78.77 9.782 0.8894
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.47E-07 | 0.00 0.00 -0.28 0.56 -0.57 0.00 0.00 0.53
9.10E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.83E-06 | 0.00 0.01 -0.96 -0.15 0.18 0.00 0.01 -0.16
4.24E-04 | 0.02 0.01 -0.02 -0.43 -0.80 0.02 0.01 -0.41
3.33E-02 | -0.13 -0.74 0.00 0.00 0.00 0.11 0.66 0.00
7.12E-02 | 0.26 -0.61 -0.01 0.00 0.00 0.32 -0.68 0.00
4.75E-02 | 0.88 -0.06 0.00 0.00 0.01 -0.44 0.18 0.00
5.12E-02 | 0.38 0.29 0.00 0.01 0.02 0.83 0.27 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.7705 +/- 0.222233 1
2 2 1 gaussian Sigma keV 9.48401 +/- 0.221023 1
3 3 1 gaussian norm 0.144520 +/- 0.303729E-02 1
4 4 2 powerlaw PhoIndex 0.888799 +/- 0.949766E-02 1
5 5 2 powerlaw norm 0.458432 +/- 0.175056E-01 1
6 6 3 gaussian LineE keV 78.7674 +/- 0.228634 2
7 7 3 gaussian Sigma keV 9.78229 +/- 0.229375 2
8 3 3 gaussian norm 0.144520 = par 3 2
9 8 4 powerlaw PhoIndex 0.889354 +/- 0.911949E-02 2
10 5 4 powerlaw norm 0.458432 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 711.3642 using 168 PHA bins.
Reduced chi-squared = 4.446026 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.260) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.260) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9744 photons ( 1.1740E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9724 photons ( 1.1762E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:16 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.071 +/- 8.5898E-03
Net count rate (cts/s) for file 2 6.071 +/- 8.5898E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.576 +/- 1.0203E-02( 58.9% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.576 +/- 1.0203E-02( 58.9% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.3673674E+07 using 198 PHA bins.
Reduced chi-squared = 71966.70 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 97030.63 using 198 PHA bins.
Reduced chi-squared = 510.6875 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
52898.6 -3 117.7 19.23 0.3926 2.827
0.1304 108.2 19.22 2.770
23417.5 -2 107.0 19.36 1.375 9.337
2.7940E-02 112.2 19.34 8.653
20839.3 -3 109.9 19.36 1.302 9.497
4.9563E-03 111.5 19.36 2.594
20244.7 -1 111.4 19.37 1.302 9.499
4.4951E-04 111.9 19.36 8.194
19159.7 -1 112.7 19.37 1.264 9.500
1.0978E-04 112.2 19.37 9.186
18743.5 -1 113.5 19.37 1.254 9.500
4.2829E-05 112.5 19.37 9.477
18562.7 -1 113.9 19.37 1.251 9.500
3.3040E-06 112.6 19.37 9.494
18377.9 -1 114.2 19.37 1.244 9.500
6.4123E-07 112.7 19.37 9.498
18217.5 -1 114.4 19.37 1.238 9.500
3.1176E-07 112.9 19.37 9.500
17362.6 0 115.3 19.37 1.191 9.500
4.5113E-08 113.5 19.37 9.500
16972.7 0 115.9 19.37 1.165 9.500
2.0593E-08 114.0 19.37 9.500
16574.1 0 116.9 19.37 1.134 9.500
6.1895E-10 114.6 19.37 9.500
16472.6 0 117.3 19.37 1.124 9.500
1.4448E-10 114.8 19.37 9.500
16408.7 0 117.6 19.37 1.116 9.500
2.5656E-11 114.9 19.37 9.500
16355.5 0 117.8 19.37 1.110 9.500
1.0679E-11 115.0 19.34 9.500
16315.9 0 118.0 19.37 1.106 9.500
3.1650E-12 115.1 19.30 9.500
16283.2 0 118.1 19.37 1.102 9.500
1.2808E-12 115.2 19.26 9.500
16263.4 0 118.2 19.37 1.099 9.500
3.3759E-13 115.3 19.24 9.500
Fit parameter 5 has pegged
16172.1 0 118.3 19.37 1.091 9.500
0.000 115.3 18.88 9.500
Fit parameter 5 has pegged
16158.0 0 118.3 19.37 1.087 9.500
0.000 115.4 18.85 9.500
Fit parameter 5 has pegged
16147.9 0 118.3 19.37 1.084 9.500
0.000 115.5 18.82 9.500
Fit parameter 5 has pegged
16140.7 0 118.3 19.37 1.082 9.500
0.000 115.6 18.80 9.500
Fit parameter 5 has pegged
16135.1 0 118.3 19.37 1.081 9.500
0.000 115.7 18.77 9.500
Fit parameter 5 has pegged
16129.3 0 118.3 19.37 1.080 9.500
0.000 115.7 18.75 9.500
Fit parameter 5 has pegged
16125.5 0 118.4 19.37 1.079 9.500
0.000 115.7 18.74 9.500
Fit parameter 5 has pegged
16121.7 0 118.4 19.37 1.078 9.500
0.000 115.8 18.73 9.500
Fit parameter 5 has pegged
16118.8 0 118.4 19.37 1.077 9.500
0.000 115.8 18.72 9.500
Fit parameter 5 has pegged
16114.7 0 118.4 19.37 1.076 9.500
0.000 115.8 18.71 9.500
Fit parameter 5 has pegged
16113.0 0 118.4 19.37 1.076 9.500
0.000 115.8 18.70 9.500
Fit parameter 5 has pegged
16111.6 0 118.4 19.37 1.076 9.500
0.000 115.9 18.69 9.500
Fit parameter 5 has pegged
16110.6 0 118.4 19.37 1.075 9.500
0.000 115.9 18.69 9.500
Fit parameter 5 has pegged
16110.5 0 118.4 19.37 1.075 9.500
0.000 115.9 18.68 9.500
Fit parameter 5 has pegged
16109.9 0 118.4 19.37 1.075 9.500
0.000 115.9 18.68 9.500
Fit parameter 5 has pegged
16108.5 0 118.5 19.37 1.075 9.500
0.000 115.9 18.67 9.500
Fit parameter 5 has pegged
16108.1 0 118.5 19.37 1.075 9.500
0.000 115.9 18.68 9.500
Fit parameter 5 has pegged
16107.2 0 118.5 19.37 1.074 9.500
0.000 115.9 18.67 9.500
Fit parameter 5 has pegged
16106.7 0 118.5 19.37 1.074 9.500
0.000 115.9 18.67 9.500
Fit parameter 5 has pegged
16106.1 0 118.5 19.37 1.074 9.500
0.000 115.9 18.67 9.500
Fit parameter 5 has pegged
16105.0 0 118.5 19.37 1.074 9.500
0.000 115.9 18.67 9.500
Fit parameter 5 has pegged
16099.1 0 118.5 19.37 1.073 9.500
0.000 115.9 18.67 9.500
Fit parameter 5 has pegged
16093.8 0 118.6 19.37 1.072 9.500
0.000 115.9 18.67 9.500
Fit parameter 5 has pegged
16089.0 0 118.6 19.37 1.071 9.500
0.000 115.9 18.67 9.500
Fit parameter 5 has pegged
16084.6 0 118.7 19.37 1.070 9.500
0.000 115.9 18.67 9.500
Fit parameter 5 has pegged
16080.6 0 118.7 19.37 1.070 9.500
0.000 115.9 18.66 9.500
Fit parameter 5 has pegged
16077.0 0 118.8 19.37 1.069 9.500
0.000 115.9 18.66 9.500
Fit parameter 5 has pegged
16073.8 0 118.8 19.37 1.068 9.500
0.000 116.0 18.66 9.500
Fit parameter 5 has pegged
16070.8 0 118.8 19.37 1.068 9.500
0.000 116.0 18.66 9.500
Fit parameter 5 has pegged
16068.1 0 118.9 19.37 1.067 9.500
0.000 116.0 18.66 9.500
Fit parameter 5 has pegged
16065.6 0 118.9 19.37 1.066 9.500
0.000 116.0 18.66 9.500
Fit parameter 5 has pegged
16063.4 0 118.9 19.37 1.066 9.500
0.000 116.0 18.66 9.500
Fit parameter 5 has pegged
16061.4 0 118.9 19.37 1.065 9.500
0.000 116.0 18.65 9.500
Fit parameter 5 has pegged
16059.5 0 119.0 19.37 1.065 9.500
0.000 116.0 18.65 9.500
Fit parameter 5 has pegged
16057.8 0 119.0 19.37 1.064 9.500
0.000 116.0 18.65 9.500
Fit parameter 5 has pegged
16056.2 0 119.0 19.37 1.064 9.500
0.000 116.0 18.65 9.500
Fit parameter 5 has pegged
16054.7 0 119.0 19.37 1.064 9.500
0.000 116.0 18.65 9.500
Fit parameter 5 has pegged
16053.4 0 119.1 19.37 1.063 9.500
0.000 116.0 18.64 9.500
Fit parameter 5 has pegged
16052.2 0 119.1 19.37 1.063 9.500
0.000 116.0 18.64 9.500
Fit parameter 5 has pegged
16051.0 0 119.1 19.37 1.062 9.500
0.000 116.0 18.64 9.500
Fit parameter 5 has pegged
16050.0 0 119.1 19.37 1.062 9.500
0.000 116.0 18.64 9.500
Fit parameter 5 has pegged
16049.1 0 119.1 19.37 1.062 9.500
0.000 116.0 18.64 9.500
Fit parameter 5 has pegged
16048.2 0 119.2 19.37 1.061 9.500
0.000 116.0 18.63 9.500
Fit parameter 5 has pegged
16047.3 0 119.2 19.37 1.061 9.500
0.000 116.0 18.63 9.500
Fit parameter 5 has pegged
16046.5 0 119.2 19.37 1.061 9.500
0.000 116.0 18.63 9.500
Fit parameter 5 has pegged
16045.8 0 119.2 19.37 1.060 9.500
0.000 116.1 18.63 9.500
Fit parameter 5 has pegged
16045.1 0 119.2 19.37 1.060 9.500
0.000 116.1 18.62 9.500
Fit parameter 5 has pegged
16044.4 0 119.2 19.37 1.060 9.500
0.000 116.1 18.62 9.500
Fit parameter 5 has pegged
16043.9 0 119.2 19.37 1.060 9.500
0.000 116.1 18.62 9.500
Fit parameter 5 has pegged
16043.3 0 119.2 19.37 1.059 9.500
0.000 116.1 18.62 9.500
Fit parameter 5 has pegged
16042.8 0 119.3 19.37 1.059 9.500
0.000 116.1 18.62 9.500
Fit parameter 5 has pegged
16042.4 0 119.3 19.37 1.059 9.500
0.000 116.1 18.61 9.500
Fit parameter 5 has pegged
16041.9 0 119.3 19.37 1.059 9.500
0.000 116.1 18.61 9.500
Fit parameter 5 has pegged
16041.4 0 119.3 19.37 1.058 9.500
0.000 116.1 18.61 9.500
Fit parameter 5 has pegged
16041.1 0 119.3 19.37 1.058 9.500
0.000 116.1 18.61 9.500
Fit parameter 5 has pegged
16040.6 0 119.3 19.37 1.058 9.500
0.000 116.1 18.61 9.500
Fit parameter 5 has pegged
16040.3 0 119.3 19.37 1.058 9.500
0.000 116.1 18.60 9.500
Fit parameter 5 has pegged
16040.0 0 119.3 19.37 1.058 9.500
0.000 116.1 18.60 9.500
Fit parameter 5 has pegged
16039.6 0 119.3 19.37 1.057 9.500
0.000 116.1 18.60 9.500
Fit parameter 5 has pegged
16039.4 0 119.3 19.37 1.057 9.500
0.000 116.1 18.60 9.500
Fit parameter 5 has pegged
16039.1 0 119.3 19.37 1.057 9.500
0.000 116.1 18.60 9.500
Fit parameter 5 has pegged
16038.8 0 119.3 19.37 1.057 9.500
0.000 116.1 18.59 9.500
Fit parameter 5 has pegged
16038.7 0 119.3 19.37 1.057 9.500
0.000 116.1 18.59 9.500
Fit parameter 5 has pegged
16038.3 0 119.4 19.37 1.057 9.500
0.000 116.2 18.59 9.500
Fit parameter 5 has pegged
16038.1 0 119.4 19.37 1.056 9.500
0.000 116.2 18.59 9.500
Fit parameter 5 has pegged
16037.9 0 119.4 19.37 1.056 9.500
0.000 116.2 18.59 9.500
Fit parameter 5 has pegged
16037.8 0 119.4 19.37 1.056 9.500
0.000 116.2 18.58 9.500
Fit parameter 5 has pegged
16037.5 0 119.4 19.37 1.056 9.500
0.000 116.2 18.58 9.500
Fit parameter 5 has pegged
16037.4 0 119.4 19.37 1.056 9.500
0.000 116.2 18.58 9.500
Fit parameter 5 has pegged
16037.3 0 119.4 19.37 1.056 9.500
0.000 116.2 18.58 9.500
Fit parameter 5 has pegged
16037.0 0 119.4 19.37 1.056 9.500
0.000 116.2 18.58 9.500
Fit parameter 5 has pegged
16036.9 0 119.4 19.37 1.055 9.500
0.000 116.2 18.58 9.500
Fit parameter 5 has pegged
16036.8 0 119.4 19.37 1.055 9.500
0.000 116.2 18.58 9.500
Fit parameter 5 has pegged
16036.7 0 119.4 19.37 1.055 9.500
0.000 116.2 18.57 9.500
Fit parameter 5 has pegged
16036.5 0 119.4 19.37 1.055 9.500
0.000 116.2 18.57 9.500
Fit parameter 5 has pegged
16036.4 0 119.4 19.37 1.055 9.500
0.000 116.2 18.57 9.500
Fit parameter 5 has pegged
16036.3 0 119.4 19.37 1.055 9.500
0.000 116.2 18.57 9.500
Fit parameter 5 has pegged
16036.2 0 119.4 19.37 1.055 9.500
0.000 116.2 18.57 9.500
Fit parameter 5 has pegged
16036.1 0 119.4 19.37 1.055 9.500
0.000 116.2 18.57 9.500
Fit parameter 5 has pegged
16035.9 0 119.4 19.37 1.055 9.500
0.000 116.2 18.56 9.500
Fit parameter 5 has pegged
16035.9 0 119.4 19.37 1.055 9.500
0.000 116.2 18.56 9.500
Fit parameter 5 has pegged
16035.7 0 119.4 19.37 1.055 9.500
0.000 116.2 18.56 9.500
Fit parameter 5 has pegged
16035.6 0 119.4 19.37 1.054 9.500
0.000 116.2 18.56 9.500
Fit parameter 5 has pegged
16035.5 0 119.4 19.37 1.054 9.500
0.000 116.2 18.56 9.500
Fit parameter 5 has pegged
16035.5 0 119.4 19.37 1.054 9.500
0.000 116.2 18.56 9.500
Fit parameter 5 has pegged
16035.4 0 119.4 19.37 1.054 9.500
0.000 116.2 18.56 9.500
Fit parameter 5 has pegged
16035.4 0 119.4 19.37 1.054 9.500
0.000 116.2 18.56 9.500
Fit parameter 5 has pegged
16035.3 0 119.4 19.37 1.054 9.500
0.000 116.2 18.55 9.500
Fit parameter 5 has pegged
16035.3 0 119.4 19.37 1.054 9.500
0.000 116.2 18.55 9.500
Fit parameter 5 has pegged
16035.2 0 119.4 19.37 1.054 9.500
0.000 116.2 18.55 9.500
Fit parameter 5 has pegged
16035.1 0 119.4 19.37 1.054 9.500
0.000 116.3 18.55 9.500
Fit parameter 5 has pegged
16035.0 1 119.4 19.37 1.054 9.500
0.000 116.3 18.55 9.500
Fit parameter 5 has pegged
16034.9 0 119.4 19.37 1.054 9.500
0.000 116.3 18.55 9.500
Fit parameter 5 has pegged
16034.9 4 119.4 19.37 1.054 9.500
0.000 116.3 18.55 9.500
16034.8 0 119.4 19.37 1.054 9.500
0.000 116.3 18.55 9.500
Fit parameter 5 has pegged
16034.8 0 119.4 19.37 1.054 9.500
0.000 116.3 18.55 9.500
16034.7 4 119.4 19.37 1.054 9.500
0.000 116.3 18.56 9.500
Fit parameter 5 has pegged
16034.7 3 119.4 19.37 1.054 9.500
0.000 116.3 18.56 9.500
16034.7 4 119.4 19.37 1.054 9.500
0.000 116.3 18.56 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.33E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.08E-02 | 0.10 0.00 0.01 -0.89 -0.45
1.67E-02 | -0.99 -0.06 0.01 -0.05 -0.11
7.42E-02 | 0.07 0.05 -0.01 0.46 -0.88
2.17E+00 | -0.07 1.00 0.00 -0.03 0.04
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 119.444 +/- 0.161783 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.46829 1
3 3 1 gaussian norm 1.05370 +/- 0.481444E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 116.275 +/- 0.160219 2
7 7 3 gaussian Sigma keV 18.5558 +/- 0.251799 2
8 3 3 gaussian norm 1.05370 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 16034.72 using 198 PHA bins.
Reduced chi-squared = 84.39327 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 81.395) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 81.395) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8874 photons ( 1.7771E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8532 photons ( 1.6745E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:17 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.495 +/- 5.5069E-03
Net count rate (cts/s) for file 2 2.495 +/- 5.5069E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 746857.1 using 168 PHA bins.
Reduced chi-squared = 4667.857 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 25289.43 using 168 PHA bins.
Reduced chi-squared = 158.0589 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3335.87 -3 86.01 14.24 0.1413 0.9476
0.5327 85.91 13.34 0.9396
1784.80 -4 73.55 15.82 0.1624 0.8569
0.3754 75.41 13.97 0.8601
1568.36 -2 80.39 6.829 8.4189E-02 0.8655
0.4341 80.40 8.887 0.8618
1176.12 -3 77.07 14.23 0.1364 0.8922
0.4669 78.24 9.932 0.8918
771.683 -4 78.14 8.936 0.1318 0.8938
0.4742 78.97 9.175 0.8940
717.682 -5 76.69 9.946 0.1470 0.8921
0.4639 78.80 9.995 0.8928
713.706 -6 76.88 9.308 0.1426 0.8886
0.4593 78.78 9.893 0.8893
711.500 -7 76.74 9.547 0.1449 0.8887
0.4580 78.76 9.781 0.8892
711.381 -8 76.78 9.465 0.1444 0.8888
0.4586 78.77 9.777 0.8894
711.367 -9 76.76 9.495 0.1446 0.8888
0.4584 78.77 9.788 0.8894
711.364 -10 76.77 9.484 0.1445 0.8888
0.4584 78.77 9.782 0.8894
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.47E-07 | 0.00 0.00 -0.28 0.56 -0.57 0.00 0.00 0.53
9.10E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.83E-06 | 0.00 0.01 -0.96 -0.15 0.18 0.00 0.01 -0.16
4.24E-04 | 0.02 0.01 -0.02 -0.43 -0.80 0.02 0.01 -0.41
3.33E-02 | -0.13 -0.74 0.00 0.00 0.00 0.11 0.66 0.00
7.12E-02 | -0.26 0.61 0.01 0.00 0.00 -0.32 0.68 0.00
4.75E-02 | 0.88 -0.06 0.00 0.00 0.01 -0.44 0.18 0.00
5.12E-02 | -0.39 -0.29 0.00 -0.01 -0.02 -0.83 -0.27 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.7706 +/- 0.222252 1
2 2 1 gaussian Sigma keV 9.48383 +/- 0.221043 1
3 3 1 gaussian norm 0.144519 +/- 0.303755E-02 1
4 4 2 powerlaw PhoIndex 0.888799 +/- 0.949783E-02 1
5 5 2 powerlaw norm 0.458434 +/- 0.175059E-01 1
6 6 3 gaussian LineE keV 78.7675 +/- 0.228642 2
7 7 3 gaussian Sigma keV 9.78221 +/- 0.229388 2
8 3 3 gaussian norm 0.144519 = par 3 2
9 8 4 powerlaw PhoIndex 0.889355 +/- 0.911966E-02 2
10 5 4 powerlaw norm 0.458434 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 711.3644 using 168 PHA bins.
Reduced chi-squared = 4.446028 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.260) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.260) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9744 photons ( 1.1740E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9724 photons ( 1.1762E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
94.91783
=====best line=====
76.7705 0.222233
=====best sigma=====
9.48401 0.221023
=====norm=====
0.144520 0.303729E-02
=====phoindx=====
0.888799 0.949766E-02
=====pow_norm=====
0.458432 0.175056E-01
=====best line=====
78.7674 0.228634
=====best sigma=====
9.78229 0.229375
=====norm=====
0.144520 par
=====phoindx=====
0.889354 0.911949E-02
=====pow_norm=====
0.458432 par
=====redu_chi=====
4.446026
=====area_flux=====
0.9744
=====area_flux_f=====
0.9724
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 14 1 640 2000 1228.328 0 0.144520 0.303729E-02 9.48401 0.221023 0.888799 0.949766E-02 0.458432 0.175056E-01 0.9744 640 2000 1260.2784 0 0.144520 0.303729E-02 9.78229 0.229375 0.889354 0.911949E-02 0.458432 0.175056E-01 0.9724 4.446026 1
=====redu_chi=====
510.6875
=====best line=====
119.444 0.161783
=====best sigma=====
19.3655 1.46829
=====norm=====
1.05370 0.481444E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.275 0.160219
=====best sigma=====
18.5558 0.251799
=====norm=====
1.05370 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
84.39327
=====area_flux=====
0.8874
=====area_flux_f=====
0.8532
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 14 1 1600 3200 1911.104 0 1.05370 0.481444E-02 309.848 23.49264 9.50000 -1.00000 0.00000 -1.00000 0.8874 1600 3200 1860.4 0 1.05370 0.481444E-02 296.8928 4.028784 9.50000 -1.00000 0.00000 -1.00000 0.8532 84.39327 1
=====redu_chi=====
158.0589
=====best line=====
76.7706 0.222252
=====best sigma=====
9.48383 0.221043
=====norm=====
0.144519 0.303755E-02
=====phoindx=====
0.888799 0.949783E-02
=====pow_norm=====
0.458434 0.175059E-01
=====best line=====
78.7675 0.228642
=====best sigma=====
9.78221 0.229388
=====norm=====
0.144519 par
=====phoindx=====
0.889355 0.911966E-02
=====pow_norm=====
0.458434 par
=====redu_chi=====
4.446028
=====area_flux=====
0.9744
=====area_flux_f=====
0.9724
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 14 1 640 2000 1228.3296 0 0.144519 0.303755E-02 9.48383 0.221043 0.888799 0.949783E-02 0.458434 0.175059E-01 0.9744 640 2000 1260.28 0 0.144519 0.303755E-02 9.78221 0.229388 0.889355 0.911966E-02 0.458434 0.175059E-01 0.9724 4.446028 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:03:17 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.430 +/- 5.4349E-03
Net count rate (cts/s) for file 2 2.430 +/- 5.4349E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 672161.6 using 168 PHA bins.
Reduced chi-squared = 4201.010 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11958.84 using 168 PHA bins.
Reduced chi-squared = 74.74274 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1770.12 -3 84.14 15.34 0.1658 0.9220
0.4653 84.77 14.86 0.9172
1545.25 -4 78.13 8.630 9.1746E-02 0.8066
0.3074 79.92 8.987 0.8103
1487.70 -2 78.99 13.64 0.1392 0.8320
0.3389 80.82 16.10 0.8313
1475.60 -2 80.25 8.690 8.1824E-02 0.8373
0.3722 81.27 5.823 0.8376
767.969 -3 79.01 10.13 0.1250 0.8902
0.4368 81.45 9.894 0.8878
704.450 0 79.25 9.927 0.1306 0.8890
0.4381 81.29 10.06 0.8878
681.086 -1 79.34 9.785 0.1391 0.8900
0.4385 81.07 10.66 0.8901
673.036 -2 79.33 9.979 0.1428 0.8983
0.4517 81.06 10.57 0.8983
668.005 -3 79.48 9.984 0.1446 0.9212
0.4937 81.20 10.66 0.9206
662.765 -4 79.53 10.03 0.1455 0.9300
0.5149 81.25 10.69 0.9299
662.300 -5 79.54 10.03 0.1455 0.9301
0.5164 81.26 10.68 0.9304
662.290 -6 79.54 10.04 0.1455 0.9301
0.5164 81.26 10.68 0.9304
662.290 1 79.54 10.04 0.1455 0.9301
0.5164 81.26 10.68 0.9304
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.21E-07 | 0.00 0.00 -0.32 0.57 -0.52 0.00 0.00 0.55
9.75E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
4.98E-06 | 0.00 0.02 -0.95 -0.17 0.19 0.00 0.04 -0.18
5.45E-04 | 0.02 0.06 -0.02 -0.39 -0.82 0.03 0.14 -0.38
1.30E-03 | -0.01 -0.37 0.02 0.05 0.09 0.01 0.92 0.05
4.09E-03 | 0.02 0.93 0.04 0.05 0.08 0.01 0.36 0.05
5.17E-02 | -0.94 0.02 0.00 -0.01 -0.01 0.35 0.00 -0.01
6.40E-02 | 0.35 -0.02 0.00 0.01 0.02 0.94 -0.02 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.5372 +/- 0.230506 1
2 2 1 gaussian Sigma keV 10.0355 +/- 0.610087E-01 1
3 3 1 gaussian norm 0.145491 +/- 0.328823E-02 1
4 4 2 powerlaw PhoIndex 0.930098 +/- 0.104091E-01 1
5 5 2 powerlaw norm 0.516438 +/- 0.212603E-01 1
6 6 3 gaussian LineE keV 81.2576 +/- 0.249858 2
7 7 3 gaussian Sigma keV 10.6846 +/- 0.407365E-01 2
8 3 3 gaussian norm 0.145491 = par 3 2
9 8 4 powerlaw PhoIndex 0.930440 +/- 0.100029E-01 2
10 5 4 powerlaw norm 0.516438 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 662.2900 using 168 PHA bins.
Reduced chi-squared = 4.139312 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.966) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.966) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9295 photons ( 1.1225E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9283 photons ( 1.1251E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:03:17 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.732 +/- 8.3464E-03
Net count rate (cts/s) for file 2 5.732 +/- 8.3464E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.301 +/- 9.9600E-03( 57.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.301 +/- 9.9600E-03( 57.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 9741996. using 198 PHA bins.
Reduced chi-squared = 51273.66 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 107679.7 using 198 PHA bins.
Reduced chi-squared = 566.7355 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
60878.5 -3 115.9 18.64 0.4255 2.858
0.2002 107.9 18.54 2.817
43632.5 -4 104.2 19.24 1.612 9.148
3070. 103.8 19.16 8.766
41833.2 -1 105.1 19.35 1.604 9.433
1382. 104.7 19.36 9.304
40620.1 -1 105.9 19.36 1.591 9.483
485.6 105.7 19.36 9.493
39348.7 -1 106.8 19.36 1.572 2.783
152.8 106.7 19.36 9.499
38037.8 -1 107.4 19.37 1.555 2.856
115.5 107.5 19.37 9.500
36556.2 -1 108.1 19.37 1.533 2.902
124.0 108.4 19.37 9.500
35216.7 -1 108.9 19.37 1.514 2.947
126.0 109.2 19.37 9.500
33672.2 -1 109.7 19.37 1.490 3.018
155.5 110.0 19.37 9.500
32692.2 -1 110.4 19.37 1.478 3.143
186.8 110.7 19.37 9.500
31527.7 -1 111.0 19.37 1.460 3.206
226.0 111.3 19.37 9.500
30275.8 -1 111.7 19.37 1.440 3.398
263.0 111.9 19.37 9.500
29428.2 -1 112.3 19.37 1.428 3.500
213.9 112.5 19.37 9.500
28794.7 -1 112.8 19.37 1.420 3.470
54.43 112.9 19.37 9.500
28281.1 -1 113.2 19.37 1.412 9.282
2758. 113.2 19.37 9.500
25221.6 0 114.3 19.37 1.333 9.454
563.0 114.2 19.37 9.500
23245.2 0 115.4 19.37 1.281 9.481
223.4 115.3 19.37 9.500
21914.6 0 116.6 19.37 1.246 9.496
27.50 116.3 19.37 9.500
21009.9 0 117.5 19.37 1.221 9.499
0.5741 117.1 19.37 9.500
20401.0 0 118.4 19.37 1.203 9.500
0.1260 117.8 19.37 9.500
19981.8 0 119.1 19.37 1.189 9.500
9.2941E-03 118.3 19.37 9.500
19493.3 0 120.1 19.37 1.168 9.500
4.4339E-04 118.9 19.37 9.500
19352.2 0 120.5 19.37 1.161 9.500
1.3284E-04 119.0 19.37 9.500
19256.2 0 120.8 19.37 1.156 9.500
5.1722E-05 119.2 19.37 9.500
19186.8 0 121.0 19.37 1.152 9.500
1.0521E-05 119.3 19.37 9.500
19131.1 0 121.2 19.37 1.148 9.500
1.5923E-07 119.3 19.37 9.500
19069.5 0 121.4 19.37 1.144 9.500
3.3471E-08 119.5 19.37 9.500
19049.5 0 121.5 19.37 1.142 9.500
1.1162E-08 119.5 19.37 9.500
19031.4 0 121.5 19.37 1.141 9.500
5.5546E-09 119.6 19.37 9.500
19018.4 0 121.6 19.37 1.139 9.500
2.7582E-09 119.6 19.37 9.500
19009.6 0 121.6 19.37 1.139 9.500
1.3550E-09 119.6 19.37 9.500
19006.3 0 121.6 19.37 1.139 9.500
6.5282E-10 119.6 19.37 9.500
19001.6 0 121.7 19.37 1.138 9.500
2.9741E-10 119.6 19.37 9.500
18996.7 0 121.7 19.37 1.138 9.500
1.2078E-10 119.6 19.37 9.500
18996.4 0 121.7 19.37 1.138 9.500
3.2519E-11 119.6 19.37 9.500
18995.3 0 121.7 19.37 1.138 9.500
1.0452E-11 119.6 19.37 9.500
18992.2 0 121.7 19.37 1.137 9.500
4.8894E-12 119.7 19.37 9.500
18991.3 0 121.7 19.37 1.137 9.500
2.1267E-12 119.7 19.37 9.500
18989.4 0 121.7 19.37 1.137 9.500
7.5321E-13 119.7 19.37 9.500
18989.0 0 121.7 19.37 1.137 9.500
6.2525E-14 119.7 19.37 9.500
Fit parameter 5 has pegged
18955.4 0 121.7 19.37 1.132 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18949.2 0 121.7 19.37 1.130 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18926.5 0 121.7 19.37 1.128 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18906.2 0 121.8 19.37 1.125 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18888.0 0 121.8 19.37 1.123 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18871.6 0 121.9 19.37 1.121 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18856.8 0 122.0 19.37 1.119 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18843.4 0 122.0 19.37 1.117 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18831.4 0 122.1 19.37 1.115 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18820.3 0 122.1 19.37 1.113 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18810.4 0 122.2 19.37 1.112 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18801.3 0 122.2 19.37 1.110 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18793.0 0 122.3 19.37 1.109 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
18785.4 0 122.3 19.37 1.108 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18778.5 0 122.4 19.37 1.107 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18772.1 0 122.4 19.37 1.106 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18766.2 0 122.5 19.37 1.105 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18760.9 0 122.5 19.37 1.104 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18756.0 0 122.5 19.37 1.103 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18751.5 0 122.6 19.37 1.102 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18747.3 0 122.6 19.37 1.101 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18743.5 0 122.6 19.37 1.101 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18740.0 0 122.7 19.37 1.100 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18736.7 0 122.7 19.37 1.099 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
18733.8 0 122.7 19.37 1.099 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18730.9 0 122.8 19.37 1.098 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18728.4 0 122.8 19.37 1.098 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18726.1 0 122.8 19.37 1.097 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18723.8 0 122.8 19.37 1.097 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18721.8 0 122.9 19.37 1.096 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18719.9 0 122.9 19.37 1.096 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18718.1 0 122.9 19.37 1.095 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18716.5 0 122.9 19.37 1.095 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18715.0 0 122.9 19.37 1.095 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18713.7 0 123.0 19.37 1.094 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18712.4 0 123.0 19.37 1.094 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18711.2 0 123.0 19.37 1.094 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18710.1 0 123.0 19.37 1.093 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18709.1 0 123.0 19.37 1.093 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18708.0 0 123.0 19.37 1.093 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18707.1 0 123.1 19.37 1.092 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18706.3 0 123.1 19.37 1.092 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18705.5 0 123.1 19.37 1.092 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
18704.8 0 123.1 19.37 1.092 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18704.2 0 123.1 19.37 1.092 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18703.5 0 123.1 19.37 1.091 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18702.8 0 123.1 19.37 1.091 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18702.3 0 123.1 19.37 1.091 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18701.8 0 123.2 19.37 1.091 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18701.3 0 123.2 19.37 1.091 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18700.8 0 123.2 19.37 1.091 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18700.4 0 123.2 19.37 1.090 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18700.0 0 123.2 19.37 1.090 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18699.6 0 123.2 19.37 1.090 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18699.2 0 123.2 19.37 1.090 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18698.9 0 123.2 19.37 1.090 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18698.7 0 123.2 19.37 1.090 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18698.3 0 123.2 19.37 1.090 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18698.0 0 123.2 19.37 1.090 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18697.7 0 123.2 19.37 1.090 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18697.4 0 123.2 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18697.2 0 123.2 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18697.0 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18696.8 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18696.7 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18696.5 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18696.2 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18696.1 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18695.9 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18695.7 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18695.6 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18695.5 1 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18695.5 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18695.3 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18695.2 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18695.2 0 123.3 19.37 1.089 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18695.0 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.9 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.8 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.8 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.7 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.6 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.5 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.5 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.4 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.3 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.3 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.2 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.2 1 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.1 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.0 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18694.0 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.9 1 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.9 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.8 1 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.7 1 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.7 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.6 1 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.6 1 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.5 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.5 0 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.5 1 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.5 1 123.3 19.37 1.088 9.500
0.000 119.7 19.37 9.500
18693.4 0 123.4 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.3 1 123.4 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.3 0 123.4 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.3 0 123.4 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.2 2 123.4 19.37 1.088 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
18693.2 3 123.4 19.37 1.088 9.500
0.000 119.7 19.37 9.500
18693.2 3 123.4 19.37 1.088 9.500
0.000 119.7 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.26E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.29E-02 | 0.21 0.00 0.01 -0.98 -0.07
1.59E-02 | -0.98 -0.04 0.01 -0.21 -0.02
2.71E+00 | -0.04 0.94 0.00 -0.03 0.33
1.48E+00 | 0.01 -0.33 0.00 -0.07 0.94
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 123.353 +/- 0.140517 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.60399 1
3 3 1 gaussian norm 1.08770 +/- 0.451678E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 119.723 +/- 0.151942 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.26692 2
8 3 3 gaussian norm 1.08770 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 18693.21 using 198 PHA bins.
Reduced chi-squared = 98.38533 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 94.889) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 94.889) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9636 photons ( 1.9695E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9198 photons ( 1.8446E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_slow.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_fast.pha
with integration time 8.2278E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:03:18 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.430 +/- 5.4349E-03
Net count rate (cts/s) for file 2 2.430 +/- 5.4349E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 763955.8 using 168 PHA bins.
Reduced chi-squared = 4774.724 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 20093.26 using 168 PHA bins.
Reduced chi-squared = 125.5829 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2794.86 -3 86.27 13.09 0.1377 0.9587
0.5229 86.76 12.29 0.9511
989.027 -4 77.56 13.22 0.1514 0.9142
0.4807 79.93 12.54 0.9155
845.307 -5 81.48 9.418 0.1185 0.9418
0.5522 82.17 9.735 0.9406
739.608 0 80.55 9.509 0.1258 0.9413
0.5523 81.84 9.829 0.9407
703.322 0 80.10 9.563 0.1307 0.9414
0.5513 81.66 9.976 0.9412
702.501 -1 79.60 10.57 0.1432 0.9425
0.5463 81.38 11.59 0.9429
666.487 -2 79.72 9.976 0.1437 0.9399
0.5399 81.41 10.36 0.9403
663.433 -3 79.54 10.25 0.1468 0.9337
0.5241 81.26 10.79 0.9344
662.446 -4 79.58 9.992 0.1449 0.9300
0.5168 81.27 10.64 0.9305
662.296 -5 79.53 10.08 0.1457 0.9303
0.5167 81.25 10.70 0.9306
662.285 0 79.54 10.05 0.1457 0.9303
0.5167 81.26 10.70 0.9306
662.285 3 79.54 10.05 0.1457 0.9303
0.5167 81.26 10.70 0.9306
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.22E-07 | 0.00 0.00 -0.32 0.57 -0.52 0.00 0.00 0.55
9.75E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
4.99E-06 | 0.00 0.03 -0.95 -0.17 0.19 0.00 0.04 -0.18
5.46E-04 | 0.02 0.06 -0.02 -0.39 -0.82 0.03 0.14 -0.38
1.29E-03 | -0.01 -0.39 0.02 0.04 0.08 0.01 0.91 0.05
3.93E-03 | 0.02 0.92 0.04 0.05 0.08 0.01 0.38 0.05
5.17E-02 | -0.94 0.02 0.00 -0.01 -0.01 0.35 0.00 -0.01
6.40E-02 | 0.35 -0.02 0.00 0.01 0.02 0.94 -0.02 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.5361 +/- 0.230530 1
2 2 1 gaussian Sigma keV 10.0469 +/- 0.595771E-01 1
3 3 1 gaussian norm 0.145721 +/- 0.329234E-02 1
4 4 2 powerlaw PhoIndex 0.930283 +/- 0.104161E-01 1
5 5 2 powerlaw norm 0.516694 +/- 0.212839E-01 1
6 6 3 gaussian LineE keV 81.2555 +/- 0.249897 2
7 7 3 gaussian Sigma keV 10.6973 +/- 0.407705E-01 2
8 3 3 gaussian norm 0.145721 = par 3 2
9 8 4 powerlaw PhoIndex 0.930622 +/- 0.100096E-01 2
10 5 4 powerlaw norm 0.516694 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 662.2852 using 168 PHA bins.
Reduced chi-squared = 4.139282 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.966) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.966) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9295 photons ( 1.1225E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9284 photons ( 1.1251E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 8.2278E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
74.74274
=====best line=====
79.5372 0.230506
=====best sigma=====
10.0355 0.610087E-01
=====norm=====
0.145491 0.328823E-02
=====phoindx=====
0.930098 0.104091E-01
=====pow_norm=====
0.516438 0.212603E-01
=====best line=====
81.2576 0.249858
=====best sigma=====
10.6846 0.407365E-01
=====norm=====
0.145491 par
=====phoindx=====
0.930440 0.100029E-01
=====pow_norm=====
0.516438 par
=====redu_chi=====
4.139312
=====area_flux=====
0.9295
=====area_flux_f=====
0.9283
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 15 1 640 2000 1272.5952 0 0.145491 0.328823E-02 10.0355 0.610087E-01 0.930098 0.104091E-01 0.516438 0.212603E-01 0.9295 640 2000 1300.1216 0 0.145491 0.328823E-02 10.6846 0.407365E-01 0.930440 0.100029E-01 0.516438 0.212603E-01 0.9283 4.139312 1
=====redu_chi=====
566.7355
=====best line=====
123.353 0.140517
=====best sigma=====
19.3655 1.60399
=====norm=====
1.08770 0.451678E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.723 0.151942
=====best sigma=====
19.3655 1.26692
=====norm=====
1.08770 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
98.38533
=====area_flux=====
0.9636
=====area_flux_f=====
0.9198
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 15 1 1600 3200 1973.648 0 1.08770 0.451678E-02 309.848 25.66384 9.50000 -1.00000 0.00000 -1.00000 0.9636 1600 3200 1915.568 0 1.08770 0.451678E-02 309.848 20.27072 9.50000 -1.00000 0.00000 -1.00000 0.9198 98.38533 1
=====redu_chi=====
125.5829
=====best line=====
79.5361 0.230530
=====best sigma=====
10.0469 0.595771E-01
=====norm=====
0.145721 0.329234E-02
=====phoindx=====
0.930283 0.104161E-01
=====pow_norm=====
0.516694 0.212839E-01
=====best line=====
81.2555 0.249897
=====best sigma=====
10.6973 0.407705E-01
=====norm=====
0.145721 par
=====phoindx=====
0.930622 0.100096E-01
=====pow_norm=====
0.516694 par
=====redu_chi=====
4.139282
=====area_flux=====
0.9295
=====area_flux_f=====
0.9284
=====exp=====
8.2278E+04
=====exp=====
8.2278E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 8.2278E+04 15 1 640 2000 1272.5776 0 0.145721 0.329234E-02 10.0469 0.595771E-01 0.930283 0.104161E-01 0.516694 0.212839E-01 0.9295 640 2000 1300.088 0 0.145721 0.329234E-02 10.6973 0.407705E-01 0.930622 0.100096E-01 0.516694 0.212839E-01 0.9284 4.139282 1
rm -rf ae803005010_xspec*.log xspec*.xcm xautosav.xcm ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
rm -rf ae803005010_hxdmkgainhist_tmp
-> hxdmkgainhist_gso successful for ae803005010hxd_1_wel.sff.input_name,f,a,"ae803005010hxd_1_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae803005010hxd_0.hk",,,"HK file name" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" process_id,s,a,"ae803005010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_pin
FFF= ae803005010hxd_1_wel.sff, HK= ae803005010hxd_0.hk TSTART 2.673358816817082E+08, TSOP 2.674388255446608E+08-> hxdmkgainhist_pin successful for ae803005010hxd_1_wel.sff.
read_iomode,s,h,"readonly",,,"HXD event fits input I/O mode : always readonly" gtimode,b,h,y,,,"HXD event fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?" hxdmkgainhist_origin,s,a,"ISAS/JAXA",,,"ORIGIN (ISAS/GSFC)" input_name,fr,a,"ae803005010hxd_1_wel.sff",,,"HXD event fits file name ?" phaextractor_mode,b,a,n,,,"PHA Extractor Mode : yes or no" ghfwrite_mode,b,a,y,,,"GHF FITS write Mode : yes or no" phaextractor_base_name,s,a,"",,,"PHA base name in PHA extractor mode" phaextractor_gti_list,f,a,"",,,"GTI file list in PHA extractor mode" phaextractor_extract_gso,b,h,y,,,"Extract GSO PHA or not : yes or no " phaextractor_extract_pin,b,h,n,,,"Extract PIN PHA or not : yes or no " phaextractor_gso_detchan,i,h,256,,,"Extract GSO Channel" phaextractor_pin_detchan,i,h,256,,,"Extract PIN Channel" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" gso_fitlog_name,f,a,"@hxd_gso_ghf.list",,,"HXD gso fitlog file name" valid_date,s,ql,"2008-07-04",,,"Valid Date (YYYY-MM-DD)for Gain History Files" valid_time,s,a,"15:03:21",,,"Valid Time (hh:mm:ss) for Gain History Files" pin_gainhist_name,f,a,"!ae803005010hxd_1_pin.ghf",,,"HXD pin gainhistory file name" gso_gainhist_name,f,a,"!ae803005010hxd_1_gso.ghf",,,"HXD gso gainhistory file name" gainhistory_iomode,s,h,"no",,,"Add result to gainhistory file: yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDmkgainhist version 2.0.1
-- Functions by HXD team --
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdeventFitsToBnkUtil version 2.0.0
hxdFitsHeaderUtil version 2.0.3
hxdcaldbUtil version 0.7.1
gain history script version 1.3.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmkgainhistWriteGHF version 0.4.5
[ 4] HXDmkgainhistWritePHA version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
|
[ 1] HXDeventFitsRead version 2.0.2
| OK: 1/1
[ 2] HXDleapsecInit version 2.0.1
QUIT: 1 | OK: 1/1
<--- [ 3] HXDmkgainhistWriteGHF version 0.4.5
| OK: 0/1
[ 4] HXDmkgainhistWritePHA version 2.0.0
| OK: 0/0
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 78/5000
buffer size : 120000
buffer used : 11008
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 6 1 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 0 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 2 0 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 0 SINGLE
HXD:PIL:ghfwrite_mode 4 4 1 0 SINGLE
HXD:PIL:pin_fitlog_name 256 11 1 0 SINGLE
HXD:PIL:gso_fitlog_list 256 17 1 0 SINGLE
HXD:PIL:gso_gdalph_name 256 14 1 0 SINGLE
HXD:PIL:gso_annihi_name 256 15 1 0 SINGLE
HXD:PIL:gso_gd150k_name 256 17 1 0 SINGLE
HXD:PIL:valid_date 256 8 2 0 SINGLE
HXD:PIL:valid_time 256 0 0 0 SINGLE
HXD:PIL:pin_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gso_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gainhistory_iomode 256 2 1 0 SINGLE
HXDeventFitsRead:IROW 4 4 1 0 SINGLE
HXD:WEL:EV_TIME 8 8 1 0 SINGLE
HXD:WEL:MTI 4 4 1 0 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 1 0 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 1 0 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 1 0 SINGLE
HXD:WEL:GRADE_RESERV 4 4 1 0 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 1 0 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 1 0 SINGLE
HXD:WEL:DET_TYPE 4 4 1 0 SINGLE
HXD:WEL:PI_FAST 4 4 1 0 SINGLE
HXD:WEL:PI_SLOW 4 4 1 0 SINGLE
HXD:WEL:PI_PIN 16 16 1 0 SINGLE
HXD:WEL:UPI_FAST 8 8 1 0 SINGLE
HXD:WEL:UPI_SLOW 8 8 1 0 SINGLE
HXD:WEL:UPI_PIN 32 32 1 0 SINGLE
HXD:WEL:PIN_ID 4 4 1 0 SINGLE
HXD:WEL:UNITID 4 4 1 0 SINGLE
HXD:WEL:LENGTH_CHK 4 4 1 0 SINGLE
HXD:WEL:WELTIME 4 4 1 0 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 1 0 SINGLE
HXD:WEL:TRIG 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 1 0 SINGLE
HXD:WEL:PHA_FAST 4 4 1 0 SINGLE
HXD:WEL:PHA_SLOW 4 4 1 0 SINGLE
HXD:WEL:PHA_PIN 16 16 1 0 SINGLE
HXD:WEL:PACKET_AETIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 0 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDeventFitsRead:NROW 4 4 1 0 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 0 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 1 0 SINGLE
HXD:WEL:EVENT 204 204 1 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 0.014 0.001 0.015 11.45
[ 2] HXDleapsecInit 0.003 0.001 0.004 3.05
[ 3] HXDmkgainhistWriteGHF 0.062 0.006 0.068 51.91
[ 4] HXDmkgainhistWritePHA 0.003 0.001 0.004 3.05
(others) 0.033 0.007 0.040 30.53
--------------------------------------------------------------------------
TOTAL 0.115 0.016 0.131 100.00
-> hxdmkgainhist successful for ae803005010hxd_1_wel.sff.read_iomode,s,h,"create",,,"HXD event fits input I/O mode : overwrite or create ?" time_change,b,h,n,,,"HXD event fits update TIME : yes or no ?" grade_change,b,h,n,,,"HXD event fits update GRADE : yes or no ?" pi_pmt_change,b,h,y,,,"HXD event fits update PI_FAST PI_SLOW : yes or no ?" pi_pin_change,b,h,y,,,"HXD event fits update PI_PIN0 PI_PIN1 PI_PIN2 PI_PIN3: yes or no ?" gtimode,b,h,n,,,"HXD event fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?" input_name,f,a,"ae803005010hxd_1_wel.sff",,,"HXD event fits file name ?" create_name,f,h,"hxdpi_out.evt",,,"HXD event fits created file name ?" hklist_name,f,a,"@hxdpi_hk.list",,,"HXD HK fits file list name ?" hxd_gsoght_fname,f,a,"CALDB",,,"HXD GSO gain history table name ?" hxd_gsolin_fname,f,a,"CALDB",,,"HXD GSO Calibration file name ?" hxd_pinghf_fname,f,a,"CALDB",,,"HXD PIN gain history file name ?" hxd_pinlin_fname,f,a,"CALDB",,,"HXD PIN Calibration file name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdpi
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDrndInit version 0.2.0
HXDgethkInit version 0.1.0
HXDpi version 2.1.3
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdpiUtil version 2.1.4
hxdeventFitsUtil version 2.0.4
hxdtableFitsUtil version 0.0.9
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
hxdcaldbUtil version 0.7.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDrndInit version 0.2.0
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDpiFITS version 2.1.3
[ 5] HXDpi version 2.1.3
[ 6] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
aste_gethk-2.5: reading filelist 'hxdpi_hk.list'
1: ae803005010hxd_0.hk
2: ae803005010.ehk
HXDpi_init: time duration = 267335881.560636 -- 267438829.546656
Opening GSO calibration files OK
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TEMP_W10_CAL' at hdu=2, col=111 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W11_CAL' at hdu=2, col=112 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W12_CAL' at hdu=2, col=113 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W13_CAL' at hdu=2, col=114 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W20_CAL' at hdu=2, col=115 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W21_CAL' at hdu=2, col=116 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W22_CAL' at hdu=2, col=117 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W23_CAL' at hdu=2, col=118 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W00_CAL' at hdu=2, col=119 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W01_CAL' at hdu=2, col=120 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W02_CAL' at hdu=2, col=121 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W03_CAL' at hdu=2, col=122 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W30_CAL' at hdu=2, col=123 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W31_CAL' at hdu=2, col=124 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W32_CAL' at hdu=2, col=125 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W33_CAL' at hdu=2, col=126 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T10_CAL' at hdu=2, col=127 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T12_CAL' at hdu=2, col=128 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T14_CAL' at hdu=2, col=129 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T21_CAL' at hdu=2, col=130 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T23_CAL' at hdu=2, col=131 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W2_CAL' at hdu=2, col=132 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P1_CAL' at hdu=2, col=133 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T1_CAL' at hdu=2, col=134 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T00_CAL' at hdu=2, col=135 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T02_CAL' at hdu=2, col=136 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T04_CAL' at hdu=2, col=137 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T31_CAL' at hdu=2, col=138 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T33_CAL' at hdu=2, col=139 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W0_CAL' at hdu=2, col=140 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P0_CAL' at hdu=2, col=141 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T3_CAL' at hdu=2, col=142 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP4_CAL' at hdu=2, col=143 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP3_CAL' at hdu=2, col=144 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY4_CAL' at hdu=2, col=145 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY3_CAL' at hdu=2, col=146 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM3_CAL' at hdu=2, col=147 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM4_CAL' at hdu=2, col=148 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR3_CAL' at hdu=2, col=149 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CENTER_CAL' at hdu=2, col=150 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP2_CAL' at hdu=2, col=151 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP1_CAL' at hdu=2, col=152 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY2_CAL' at hdu=2, col=153 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY1_CAL' at hdu=2, col=154 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM1_CAL' at hdu=2, col=155 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM2_CAL' at hdu=2, col=156 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR1_CAL' at hdu=2, col=157 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR2_CAL' at hdu=2, col=158 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'T_SAA_HXD' at hdu=2, col=29 in 'ae803005010.ehk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
Event... 500001 (500000)
Event... 600001 (600000)
Event... 700001 (700000)
Event... 800001 (800000)
Event... 900001 (900000)
Event... 1000001 (1000000)
Event... 1100001 (1100000)
Event... 1200001 (1200000)
Event... 1300001 (1300000)
Event... 1400001 (1400000)
Event... 1500001 (1500000)
Event... 1600001 (1600000)
Event... 1700001 (1700000)
Event... 1800001 (1800000)
Event... 1900001 (1900000)
Event... 2000001 (2000000)
Event... 2100001 (2100000)
Event... 2200001 (2200000)
Event... 2300001 (2300000)
Event... 2400001 (2400000)
Event... 2500001 (2500000)
Event... 2600001 (2600000)
Event... 2700001 (2700000)
Event... 2800001 (2800000)
Event... 2900001 (2900000)
Event... 3000001 (3000000)
Event... 3100001 (3100000)
Event... 3200001 (3200000)
Event... 3300001 (3300000)
Event... 3400001 (3400000)
Event... 3500001 (3500000)
Event... 3600001 (3600000)
Event... 3700001 (3700000)
Event... 3800001 (3800000)
Event... 3900001 (3900000)
Event... 4000001 (4000000)
Event... 4100001 (4100000)
Event... 4200001 (4200000)
Event... 4300001 (4300000)
Event... 4400001 (4400000)
Event... 4500001 (4500000)
Event... 4600001 (4600000)
Event... 4700001 (4700000)
Event... 4800001 (4800000)
Event... 4900001 (4900000)
Event... 5000001 (5000000)
Event... 5100001 (5100000)
Event... 5200001 (5200000)
Event... 5300001 (5300000)
Event... 5400001 (5400000)
Event... 5500001 (5500000)
Event... 5600001 (5600000)
Event... 5700001 (5700000)
Event... 5800001 (5800000)
Event... 5900001 (5900000)
Event... 6000001 (6000000)
Event... 6100001 (6100000)
Event... 6200001 (6200000)
Event... 6300001 (6300000)
Event... 6400001 (6400000)
Event... 6500001 (6500000)
Event... 6600001 (6600000)
Event... 6700001 (6700000)
Event... 6800001 (6800000)
Event... 6900001 (6900000)
Event... 7000001 (7000000)
Event... 7100001 (7100000)
Event... 7200001 (7200000)
Event... 7300001 (7300000)
Event... 7400001 (7400000)
Event... 7500001 (7500000)
Event... 7600001 (7600000)
Event... 7700001 (7700000)
Event... 7800001 (7800000)
Event... 7900001 (7900000)
Event... 8000001 (8000000)
Event... 8100001 (8100000)
Event... 8200001 (8200000)
Event... 8300001 (8300000)
Event... 8400001 (8400000)
Event... 8500001 (8500000)
Event... 8600001 (8600000)
Event... 8700001 (8700000)
Event... 8800001 (8800000)
Event... 8900001 (8900000)
Event... 9000001 (9000000)
Event... 9100001 (9100000)
Event... 9200001 (9200000)
Event... 9300001 (9300000)
Event... 9400001 (9400000)
Event... 9500001 (9500000)
Event... 9600001 (9600000)
Event... 9700001 (9700000)
Event... 9800001 (9800000)
Event... 9900001 (9900000)
Event... 10000001 (10000000)
Event... 10100001 (10100000)
Event... 10200001 (10200000)
Event... 10300001 (10300000)
Event... 10400001 (10400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 10469673
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 10469672/10469673
[ 2] HXDrndInit version 0.2.0
| OK: 10469672/10469672
[ 3] HXDgethkInit version 0.1.0
| OK: 10469672/10469672
[ 4] HXDpiFITS version 2.1.3
| OK: 10469672/10469672
[ 5] HXDpi version 2.1.3
| OK: 10469672/10469672
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 10469672/10469672
GET: 10469672
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 80/5000
buffer size : 120000
buffer used : 16048
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 13 1 3 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 3 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdpi_yn 4 4 2 3 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 3 SINGLE
HXD:PIL:hxd_gsoght_fname 256 112 1 3 SINGLE
HXD:PIL:hxd_gsolin_fname 256 112 1 3 SINGLE
HXD:PIL:hxd_pinghf_fname 256 112 1 3 SINGLE
HXD:PIL:hxd_pinlin_fname 256 112 1 3 SINGLE
HXD:PIL:CALDB_TYPE:gsoght 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:gsolin 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:pinghf 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:pinlin 4 4 1 3 SINGLE
HXDeventFitsRead:IROW 4 4 10469672 0 SINGLE
HXD:WEL:EV_TIME 8 8 10469672 10469672 SINGLE
HXD:WEL:MTI 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 10469672 10469672 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_RESERV 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 10469672 10469672 SINGLE
HXD:WEL:DET_TYPE 4 4 10469672 10469672 SINGLE
HXD:WEL:PI_FAST 4 4 20939344 10469672 SINGLE
HXD:WEL:PI_SLOW 4 4 20939344 10469672 SINGLE
HXD:WEL:PI_PIN 16 16 20939344 10469672 SINGLE
HXD:WEL:UPI_FAST 8 8 20939344 10469672 SINGLE
HXD:WEL:UPI_SLOW 8 8 20939344 10469672 SINGLE
HXD:WEL:UPI_PIN 32 32 20939344 10469672 SINGLE
HXD:WEL:PIN_ID 4 4 10469672 10469672 SINGLE
HXD:WEL:UNITID 4 4 10469672 10469672 SINGLE
HXD:WEL:LENGTH_CHK 4 4 10469672 10469672 SINGLE
HXD:WEL:WELTIME 4 4 10469672 10469672 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 10469672 10469672 SINGLE
HXD:WEL:TRIG 4 4 10469672 10469672 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 10469672 10469672 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 10469672 10469672 SINGLE
HXD:WEL:PHA_FAST 4 4 10469672 10469672 SINGLE
HXD:WEL:PHA_SLOW 4 4 10469672 10469672 SINGLE
HXD:WEL:PHA_PIN 16 16 10469672 10469672 SINGLE
HXD:WEL:PACKET_AETIME 8 8 10469672 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 10469672 20937991 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 10469672 10469672 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 1 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 14 1 1 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 2 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 4 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDeventFitsRead:NROW 4 4 1 1 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 1 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 1 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 10469672 20939344 SINGLE
HXD:WEL:EVENT 204 204 20939344 20939344 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXDpi:GSO_GHT_NAME 2000 2000 1 1 SINGLE
HXDpi:GSO_LIN_NAME 2000 2000 1 1 SINGLE
HXDpi:PIN_GHF_NAME 2000 2000 1 1 SINGLE
HXDpi:PIN_LIN_NAME 2000 2000 1 1 SINGLE
HXDpi:HKDATA 384 384 21103 10468319 SINGLE
HXDpi:EHKDATA 136 136 21103 10468319 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 239.880 12.797 252.677 38.64
[ 2] HXDrndInit 3.266 6.277 9.543 1.46
[ 3] HXDgethkInit 2.118 5.783 7.901 1.21
[ 4] HXDpiFITS 8.251 11.421 19.672 3.01
[ 5] HXDpi 75.155 6.165 81.320 12.44
[ 6] HXD2ndeventFitsWrite 232.849 49.958 282.807 43.25
(others) 0.021 0.009 0.030 0.00
--------------------------------------------------------------------------
TOTAL 561.539 92.411 653.950 100.00
-> hxdpi successful for ae803005010hxd_1_wel.sff.
read_iomode,s,h,"create",,,"HXD event fits input I/O mode : overwrite or create ?"
time_change,b,h,n,,,"HXD event fits update TIME : yes or no ?"
grade_change,b,h,y,,,"HXD event fits update GRADE : yes or no ?"
pi_pmt_change,b,h,n,,,"HXD event fits update PI_FAST PI_SLOW : yes or no ?"
pi_pin_change,b,h,n,,,"HXD event fits update PI_PIN0 PI_PIN1 PI_PIN2 PI_PIN3: yes or no ?"
gtimode,b,h,n,,,"HXD event fits using GTI : yes or no ?"
gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?"
input_name,f,a,"ae803005010hxd_1_wel.sff",,,"HXD event fits file name ?"
create_name,f,a,"hxdgrade_out.evt",,,"HXD event fits created file name ?"
leapfile,f,a,"CALDB;$ENV{LHEA_DATA}/leapsec.fits",,,"leapsec file name"
hxdgrade_psdsel_fname,f,a,"CALDB",,,"File name for the GRADE PSD Selection."
hxdgrade_pinthres_fname,f,a,"CALDB",,,"File name for the GRADE PIN Threshold."
hxdgrade_psdsel_criteria,r,h,2.1,,,"PSD selection criteria."
use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?"
num_event,i,h,-1,,,"number of event (-1=all,0=exit)"
event_freq,i,h,100000,,,"Event number printout frequency"
anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)"
anl_profile,b,h,yes,,,"Enable ANL module profiling"
chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)"
mode,s,h,"hl",,,""
-> stdout output from hxdgrade
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDgrade version 2.0.4
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
hxdcaldbUtil version 0.7.1
hxdgradeUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgradeFITS version 2.0.4
[ 4] HXDgrade version 2.0.3
[ 5] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
Event... 500001 (500000)
Event... 600001 (600000)
Event... 700001 (700000)
Event... 800001 (800000)
Event... 900001 (900000)
Event... 1000001 (1000000)
Event... 1100001 (1100000)
Event... 1200001 (1200000)
Event... 1300001 (1300000)
Event... 1400001 (1400000)
Event... 1500001 (1500000)
Event... 1600001 (1600000)
Event... 1700001 (1700000)
Event... 1800001 (1800000)
Event... 1900001 (1900000)
Event... 2000001 (2000000)
Event... 2100001 (2100000)
Event... 2200001 (2200000)
Event... 2300001 (2300000)
Event... 2400001 (2400000)
Event... 2500001 (2500000)
Event... 2600001 (2600000)
Event... 2700001 (2700000)
Event... 2800001 (2800000)
Event... 2900001 (2900000)
Event... 3000001 (3000000)
Event... 3100001 (3100000)
Event... 3200001 (3200000)
Event... 3300001 (3300000)
Event... 3400001 (3400000)
Event... 3500001 (3500000)
Event... 3600001 (3600000)
Event... 3700001 (3700000)
Event... 3800001 (3800000)
Event... 3900001 (3900000)
Event... 4000001 (4000000)
Event... 4100001 (4100000)
Event... 4200001 (4200000)
Event... 4300001 (4300000)
Event... 4400001 (4400000)
Event... 4500001 (4500000)
Event... 4600001 (4600000)
Event... 4700001 (4700000)
Event... 4800001 (4800000)
Event... 4900001 (4900000)
Event... 5000001 (5000000)
Event... 5100001 (5100000)
Event... 5200001 (5200000)
Event... 5300001 (5300000)
Event... 5400001 (5400000)
Event... 5500001 (5500000)
Event... 5600001 (5600000)
Event... 5700001 (5700000)
Event... 5800001 (5800000)
Event... 5900001 (5900000)
Event... 6000001 (6000000)
Event... 6100001 (6100000)
Event... 6200001 (6200000)
Event... 6300001 (6300000)
Event... 6400001 (6400000)
Event... 6500001 (6500000)
Event... 6600001 (6600000)
Event... 6700001 (6700000)
Event... 6800001 (6800000)
Event... 6900001 (6900000)
Event... 7000001 (7000000)
Event... 7100001 (7100000)
Event... 7200001 (7200000)
Event... 7300001 (7300000)
Event... 7400001 (7400000)
Event... 7500001 (7500000)
Event... 7600001 (7600000)
Event... 7700001 (7700000)
Event... 7800001 (7800000)
Event... 7900001 (7900000)
Event... 8000001 (8000000)
Event... 8100001 (8100000)
Event... 8200001 (8200000)
Event... 8300001 (8300000)
Event... 8400001 (8400000)
Event... 8500001 (8500000)
Event... 8600001 (8600000)
Event... 8700001 (8700000)
Event... 8800001 (8800000)
Event... 8900001 (8900000)
Event... 9000001 (9000000)
Event... 9100001 (9100000)
Event... 9200001 (9200000)
Event... 9300001 (9300000)
Event... 9400001 (9400000)
Event... 9500001 (9500000)
Event... 9600001 (9600000)
Event... 9700001 (9700000)
Event... 9800001 (9800000)
Event... 9900001 (9900000)
Event... 10000001 (10000000)
Event... 10100001 (10100000)
Event... 10200001 (10200000)
Event... 10300001 (10300000)
Event... 10400001 (10400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 10469673
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 10469672/10469673
[ 2] HXDleapsecInit version 2.0.1
| OK: 10469672/10469672
[ 3] HXDgradeFITS version 2.0.4
| OK: 10469672/10469672
[ 4] HXDgrade version 2.0.3
| OK: 10469672/10469672
[ 5] HXD2ndeventFitsWrite version 2.0.4
| OK: 10469672/10469672
GET: 10469672
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 75/5000
buffer size : 120000
buffer used : 13008
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 16 1 3 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 3 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdgrade_yn 4 4 2 3 SINGLE
HXD:PIL:hxdgrade_psdsel_fname 256 112 1 3 SINGLE
HXD:PIL:hxdgrade_pinthres_fname 256 112 1 3 SINGLE
HXD:PIL:hxdgrade_psdsel_criteria 8 8 1 0 SINGLE
HXD:PIL:CALDB_TYPE:pinthr 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:psdsel 4 4 1 3 SINGLE
HXDeventFitsRead:IROW 4 4 10469672 0 SINGLE
HXD:WEL:EV_TIME 8 8 10469672 10469672 SINGLE
HXD:WEL:MTI 4 4 10469672 10469672 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 20939344 10469672 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 20939344 10469672 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 20939344 10469672 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 20939344 10469672 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 20939344 10469672 SINGLE
HXD:WEL:GRADE_RESERV 4 4 20939344 10469672 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 20939344 10469672 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 20939344 10469672 SINGLE
HXD:WEL:DET_TYPE 4 4 20939344 10469672 SINGLE
HXD:WEL:PI_FAST 4 4 10469672 10469672 SINGLE
HXD:WEL:PI_SLOW 4 4 10469672 10469672 SINGLE
HXD:WEL:PI_PIN 16 16 10469672 10469672 SINGLE
HXD:WEL:UPI_FAST 8 8 10469672 10469672 SINGLE
HXD:WEL:UPI_SLOW 8 8 10469672 10469672 SINGLE
HXD:WEL:UPI_PIN 32 32 10469672 10469672 SINGLE
HXD:WEL:PIN_ID 4 4 20939344 10469672 SINGLE
HXD:WEL:UNITID 4 4 10469672 10469672 SINGLE
HXD:WEL:LENGTH_CHK 4 4 10469672 10469672 SINGLE
HXD:WEL:WELTIME 4 4 10469672 10469672 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 10469672 10469672 SINGLE
HXD:WEL:TRIG 4 4 10469672 10469672 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 10469672 10469672 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 10469672 10469672 SINGLE
HXD:WEL:PHA_FAST 4 4 10469672 10469672 SINGLE
HXD:WEL:PHA_SLOW 4 4 10469672 10469672 SINGLE
HXD:WEL:PHA_PIN 16 16 10469672 10469672 SINGLE
HXD:WEL:PACKET_AETIME 8 8 10469672 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 10469672 10469672 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 10469672 10469672 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 1 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 17 1 1 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 2 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 4 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDeventFitsRead:NROW 4 4 1 1 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 1 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 10469672 10469672 SINGLE
HXD:WEL:EVENT 204 204 10469672 10469672 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgrade:PSDSEL_FILE_NAME 2000 2000 1 1 SINGLE
HXDgrade:PINTHRES_FILE_NAME 2000 2000 1 1 SINGLE
HXDgrade:PSDSEL_CRITERIA 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 232.057 10.108 242.164 43.26
[ 2] HXDleapsecInit 2.984 6.388 9.372 1.67
[ 3] HXDgradeFITS 2.192 5.599 7.791 1.39
[ 4] HXDgrade 22.308 5.678 27.986 5.00
[ 5] HXD2ndeventFitsWrite 229.454 42.971 272.425 48.67
(others) 0.018 0.010 0.028 0.01
--------------------------------------------------------------------------
TOTAL 489.012 70.754 559.766 100.00
-> hxdgrade successful for ae803005010hxd_1_wel.sff.read_iomode,s,h,"create",,,"HXD event fits input I/O mode : overwrite or create ?" time_change,b,h,y,,,"HXD event fits update TIME : yes or no ?" grade_change,b,h,n,,,"HXD event fits update GRADE : yes or no ?" pi_pmt_change,b,h,n,,,"HXD event fits update PI_FAST PI_SLOW : yes or no ?" pi_pin_change,b,h,n,,,"HXD event fits update PI_PIN0 PI_PIN1 PI_PIN2 PI_PIN3: yes or no ?" gtimode,b,h,y,,,"HXD event fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?" create_name,f,a,"hxdtime.out",,,"HXD event fits created file name ?" input_name,fr,a,"ae803005010hxd_2_wel.fff",,,"HXD event fits file name ?" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" leapfile,f,a,"CALDB",,,"leapsec file name" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" time_convert_mode,i,h,4,,,"HxdTime2aetime mode ?" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdtime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDfwelTime version 2.0.0
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDfwelTimeFITS version 0.3.8
[ 5] HXDfwelTime version 2.0.0
[ 6] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae803005010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
Event... 500001 (500000)
Event... 600001 (600000)
Event... 700001 (700000)
Event... 800001 (800000)
Event... 900001 (900000)
Event... 1000001 (1000000)
Event... 1100001 (1100000)
Event... 1200001 (1200000)
Event... 1300001 (1300000)
Event... 1400001 (1400000)
Event... 1500001 (1500000)
Event... 1600001 (1600000)
Event... 1700001 (1700000)
Event... 1800001 (1800000)
Event... 1900001 (1900000)
Event... 2000001 (2000000)
Event... 2100001 (2100000)
Event... 2200001 (2200000)
Event... 2300001 (2300000)
Event... 2400001 (2400000)
Event... 2500001 (2500000)
Event... 2600001 (2600000)
Event... 2700001 (2700000)
Event... 2800001 (2800000)
Event... 2900001 (2900000)
Event... 3000001 (3000000)
Event... 3100001 (3100000)
Event... 3200001 (3200000)
Event... 3300001 (3300000)
Event... 3400001 (3400000)
Event... 3500001 (3500000)
Event... 3600001 (3600000)
Event... 3700001 (3700000)
Event... 3800001 (3800000)
Event... 3900001 (3900000)
Event... 4000001 (4000000)
Event... 4100001 (4100000)
Event... 4200001 (4200000)
Event... 4300001 (4300000)
Event... 4400001 (4400000)
Event... 4500001 (4500000)
Event... 4600001 (4600000)
Event... 4700001 (4700000)
Event... 4800001 (4800000)
Event... 4900001 (4900000)
Event... 5000001 (5000000)
Event... 5100001 (5100000)
Event... 5200001 (5200000)
Event... 5300001 (5300000)
Event... 5400001 (5400000)
Event... 5500001 (5500000)
Event... 5600001 (5600000)
Event... 5700001 (5700000)
Event... 5800001 (5800000)
Event... 5900001 (5900000)
Event... 6000001 (6000000)
Event... 6100001 (6100000)
Event... 6200001 (6200000)
Event... 6300001 (6300000)
Event... 6400001 (6400000)
Event... 6500001 (6500000)
Event... 6600001 (6600000)
Event... 6700001 (6700000)
Event... 6800001 (6800000)
Event... 6900001 (6900000)
Event... 7000001 (7000000)
Event... 7100001 (7100000)
Event... 7200001 (7200000)
Event... 7300001 (7300000)
Event... 7400001 (7400000)
Event... 7500001 (7500000)
Event... 7600001 (7600000)
Event... 7700001 (7700000)
Event... 7800001 (7800000)
Event... 7900001 (7900000)
Event... 8000001 (8000000)
Event... 8100001 (8100000)
Event... 8200001 (8200000)
Event... 8300001 (8300000)
Event... 8400001 (8400000)
Event... 8500001 (8500000)
Event... 8600001 (8600000)
Event... 8700001 (8700000)
Event... 8800001 (8800000)
Event... 8900001 (8900000)
Event... 9000001 (9000000)
Event... 9100001 (9100000)
Event... 9200001 (9200000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 9272382
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 9272381/9272382
[ 2] HXDleapsecInit version 2.0.1
| OK: 9272381/9272381
[ 3] HXDgethkInit version 0.1.0
| OK: 9272381/9272381
[ 4] HXDfwelTimeFITS version 0.3.8
| OK: 9272381/9272381
[ 5] HXDfwelTime version 2.0.0
| OK: 9272381/9272381
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 9272381/9272381
GET: 9272381
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 80/5000
buffer size : 120000
buffer used : 10912
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 6 1 3 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 11 1 3 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 3 SINGLE
HXD:ftools:hxdtime_yn 4 4 2 4 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 3 SINGLE
HXD:PIL:tim_filename 256 15 1 3 SINGLE
HXD:PIL:time_convert_mode 4 4 1 3 SINGLE
HXDeventFitsRead:IROW 4 4 9272381 0 SINGLE
HXD:WEL:EV_TIME 8 8 18544762 9272381 SINGLE
HXD:WEL:MTI 4 4 18544762 9272381 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 9272381 9272381 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_RESERV 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 9272381 9272381 SINGLE
HXD:WEL:DET_TYPE 4 4 9272381 9272381 SINGLE
HXD:WEL:PI_FAST 4 4 9272381 9272381 SINGLE
HXD:WEL:PI_SLOW 4 4 9272381 9272381 SINGLE
HXD:WEL:PI_PIN 16 16 9272381 9272381 SINGLE
HXD:WEL:UPI_FAST 8 8 9272381 9272381 SINGLE
HXD:WEL:UPI_SLOW 8 8 9272381 9272381 SINGLE
HXD:WEL:UPI_PIN 32 32 9272381 9272381 SINGLE
HXD:WEL:PIN_ID 4 4 9272381 9272381 SINGLE
HXD:WEL:UNITID 4 4 9272381 18543592 SINGLE
HXD:WEL:LENGTH_CHK 4 4 9272381 9272381 SINGLE
HXD:WEL:WELTIME 4 4 9272381 18543592 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 9272381 9272381 SINGLE
HXD:WEL:TRIG 4 4 9272381 9272381 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 9272381 9272381 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 9272381 9272381 SINGLE
HXD:WEL:PHA_FAST 4 4 9272381 9272381 SINGLE
HXD:WEL:PHA_SLOW 4 4 9272381 9272381 SINGLE
HXD:WEL:PHA_PIN 16 16 9272381 9272381 SINGLE
HXD:WEL:PACKET_AETIME 8 8 9272381 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 9272381 27814803 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 9272381 18543592 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 1 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 12 1 1 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 2 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 4 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDeventFitsRead:NROW 4 4 1 1 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 2 SINGLE
HXDeventFitsRead:TSTART 8 8 1 0 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 9296353 27817143 SINGLE
HXD:WEL:EVENT 204 204 18543592 9271211 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 3 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 3 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXDfwelTime:HXD_SYS_LATCH_TI 4 4 11401 11401 SINGLE
HXDfwelTime:HXD_AE_TM_LATCH_TM 4 4 11401 11401 SINGLE
HXDfwelTime:HXD_WPU_CLK_RATE 4 4 11401 9271212 SINGLE
HXDfwelTime:HXD_SYS_TIME 8 8 11401 0 SINGLE
HXDfwelTime:HXD_HK_TIME 8 8 11401 0 SINGLE
HXDfwelTime:PWH 64 0 0 0 SINGLE
HXDfwelTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfwelTime:TIME_INVALID 4 4 9272381 0 SINGLE
HXDfwelTime:EV_TIME_TLM 8 8 9272381 0 SINGLE
HXDfwelTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 208.923 12.293 221.216 40.56
[ 2] HXDleapsecInit 2.784 5.408 8.192 1.50
[ 3] HXDgethkInit 2.064 4.958 7.022 1.29
[ 4] HXDfwelTimeFITS 4.296 4.935 9.232 1.69
[ 5] HXDfwelTime 52.428 5.528 57.956 10.63
[ 6] HXD2ndeventFitsWrite 205.696 36.131 241.826 44.33
(others) 0.018 0.007 0.025 0.00
--------------------------------------------------------------------------
TOTAL 476.209 69.260 545.469 100.00
-> hxdtime successful for ae803005010hxd_2_wel.sff.input_name,f,a,"ae803005010hxd_2_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae803005010hxd_0.hk",,,"HK file name" gso_gd_fitlog_name,f,a,"gso_gd_ghf.tbl",,,"HXD gso Gd fitlog file name" gso_511_fitlog_name,f,a,"gso_511_ghf.tbl",,,"HXD gso 511keV fitlog file name" gso_152gd_fitlog_name,f,a,"gso_152gd_ghf.tbl",,,"HXD gso 152Gd fitlog file name" process_id,s,a,"ae803005010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" exposure,r,h,1000000,,,"Fitting Exposure(seconds)" fit_start_gd_s,r,h,40,,,"Start Channel of PHA_SLOW in fitting intrinsic Gd line" fit_end_gd_s,r,h,125,,,"End Channel of PHA_SLOW in fitting intrinsic Gd line" fit_start_gd_f,r,h,40,,,"Start Channel of PHA_FAST in fitting intrinsic Gd line" fit_end_gd_f,r,h,125,,,"End Channel of PHA_FAST in fitting intrinsic Gd line" fit_start_511_s,r,h,100,,,"Start Channel of PHA_SLOW in fitting 511 keV line" fit_end_511_s,r,h,200,,,"End Channel of PHA_SLOW in fitting 511 keV line" fit_start_511_f,r,h,100,,,"Start Channel of PHA_FAST in fitting 511 keV line" fit_end_511_f,r,h,200,,,"End Channel of PHA_FAST in fitting 511 keV line" fit_start_152gd_s,r,h,40,,,"Start Channel of PHA_SLOW in fitting 152Gd line" fit_end_152gd_s,r,h,125,,,"End Channel of PHA_SLOW in fitting 152Gd line" fit_start_152gd_f,r,h,40,,,"Start Channel of PHA_FAST in fitting 152Gd line" fit_end_152gd_f,r,h,125,,,"End Channel of PHA_FAST in fitting 152Gd line" hv_w0_volt_min,r,h,700,,,"HV minmum voltage of WPU0 to make GTI" hv_w1_volt_min,r,h,700,,,"HV minmum voltage of WPU1 to make GTI" hv_w2_volt_min,r,h,700,,,"HV minmum voltage of WPU2 to make GTI" hv_w3_volt_min,r,h,700,,,"HV minmum voltage of WPU3 to make GTI" save_tmpfiles,b,h,no,,,"save temporal files (yes/no)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_gso
FFF = ae803005010hxd_2_wel.sff, HK = ae803005010hxd_0.hk
rm -rf ae803005010_hxdmkgainhist_tmp; mkdir ae803005010_hxdmkgainhist_tmp
maketime infile="ae803005010hxd_0.hk+1" outfile="ae803005010_hxdmkgainhist_tmp/total.gti" expr="(HXD_HV_W0_CAL >= 700) && (HXD_HV_W1_CAL >= 700) && (HXD_HV_W2_CAL >= 700) && (HXD_HV_W3_CAL >= 700)" name=anything value=anything time=TIME compact=no prefr=0.5 postfr=0.5
original GTI = ae803005010_hxdmkgainhist_tmp/total.gti
fdump infile="ae803005010_hxdmkgainhist_tmp/total.gti" outfile="ae803005010_hxdmkgainhist_tmp/fdump.log" columns='START,STOP' rows=- prhead=no pagewidth=100 showrow=no
fdump log = ae803005010_hxdmkgainhist_tmp/fdump.log
GTI LIST = ae803005010_hxdmkgainhist_tmp/gtilist
Exposure = 1000000
Making Non-selection fits file now.
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff" expr="(UNITID=="0")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff" expr="(UNITID=="1")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff" expr="(UNITID=="2")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff" expr="(UNITID=="3")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff" expr="(UNITID=="4")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff" expr="(UNITID=="5")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff" expr="(UNITID=="6")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff" expr="(UNITID=="7")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff" expr="(UNITID=="8")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff" expr="(UNITID=="9")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff" expr="(UNITID=="10")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff" expr="(UNITID=="11")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff" expr="(UNITID=="12")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff" expr="(UNITID=="13")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff" expr="(UNITID=="14")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff" expr="(UNITID=="15")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
Making Hit Pattern 8 fits file now.
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff" expr="(UNITID==0) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0111000000000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b11100000000000000011) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff" expr="(UNITID==1) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1011100100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b01110000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff" expr="(UNITID==2) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1101100110001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff" expr="(UNITID==3) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1110000000001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000111) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff" expr="(UNITID==4) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110011100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00111000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff" expr="(UNITID==5) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000101100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00011111000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff" expr="(UNITID==6) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000110111000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000011100000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff" expr="(UNITID==7) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110111011000100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff" expr="(UNITID==8) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0010001101110110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff" expr="(UNITID==9) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000001110110000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000001110000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff" expr="(UNITID==10) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011010000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000111110000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff" expr="(UNITID==11) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011100110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000111000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff" expr="(UNITID==12) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000000000111) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000001110) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff" expr="(UNITID==13) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000110011011) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff" expr="(UNITID==14) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000010011101) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000011100000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_2_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff" expr="(UNITID==15) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000000001110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000001111100) == (b00000000000000000000)))"
EVENT SELECTION
genrsp inrfil="none" rmffil="ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp" resol_reln="constant" resol_file="none" fwhm=0 disperse=no tlscpe="SUZAKU" instrm="HXD" resp_reln="linear" resp_file="none" resp_low=-0.5 resp_high=255.5 resp_number=256 resp_break=-1.0 resp_bnumber=0 chan_reln="linear" chan_low=-0.5 chan_high=255.5 chan_number=256 chan_break=-1.0 chan_bnumber=0 efffil="none" detfil="none" filfil="none" max_elements=100000 rsp_min=1.e-6 clobber=yes mode=ql
GENRSP vers 2.01 07/12/06.
... 256 channels in spectrum
... 256 energies in response
100 1 9.90000E+01 9.90000E+01 0.00000E+00 1.00000E+00
200 1 1.99000E+02 1.99000E+02 0.00000E+00 1.00000E+00
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
437202 436665 0 537 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
437202 436665 0 537 0 0 0
in 73280. seconds
Spectrum has 436665 counts for 5.959 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
437202 436665 0 537 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
437202 436665 0 537 0 0 0
in 73280. seconds
Spectrum has 436665 counts for 5.959 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
182372 182130 0 242 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
182372 182130 0 242 0 0 0
in 73280. seconds
Spectrum has 182130 counts for 2.485 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
182372 182130 0 242 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
182372 182130 0 242 0 0 0
in 73280. seconds
Spectrum has 182130 counts for 2.485 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
448776 448178 0 598 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
448776 448178 0 598 0 0 0
in 73280. seconds
Spectrum has 448178 counts for 6.116 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
448776 448178 0 598 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
448776 448178 0 598 0 0 0
in 73280. seconds
Spectrum has 448178 counts for 6.116 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
201299 201043 0 256 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
201299 201043 0 256 0 0 0
in 73280. seconds
Spectrum has 201043 counts for 2.743 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
201299 201043 0 256 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
201299 201043 0 256 0 0 0
in 73280. seconds
Spectrum has 201043 counts for 2.743 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
542747 541895 0 852 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
542747 541895 0 852 0 0 0
in 73280. seconds
Spectrum has 541895 counts for 7.395 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
542747 541895 0 852 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
542747 541895 0 852 0 0 0
in 73280. seconds
Spectrum has 541895 counts for 7.395 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
240151 239765 0 386 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
240151 239765 0 386 0 0 0
in 73280. seconds
Spectrum has 239765 counts for 3.272 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
240151 239765 0 386 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
240151 239765 0 386 0 0 0
in 73280. seconds
Spectrum has 239765 counts for 3.272 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
441293 440780 0 513 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
441293 440780 0 513 0 0 0
in 73280. seconds
Spectrum has 440780 counts for 6.015 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
441293 440780 0 513 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
441293 440780 0 513 0 0 0
in 73280. seconds
Spectrum has 440780 counts for 6.015 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
185546 185311 0 235 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
185546 185311 0 235 0 0 0
in 73280. seconds
Spectrum has 185311 counts for 2.529 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
185546 185311 0 235 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
185546 185311 0 235 0 0 0
in 73280. seconds
Spectrum has 185311 counts for 2.529 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
423987 423459 0 528 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
423987 423459 0 528 0 0 0
in 73280. seconds
Spectrum has 423459 counts for 5.779 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
423987 423459 0 528 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
423987 423459 0 528 0 0 0
in 73280. seconds
Spectrum has 423459 counts for 5.779 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
175200 174982 0 218 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
175200 174982 0 218 0 0 0
in 73280. seconds
Spectrum has 174982 counts for 2.388 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
175200 174982 0 218 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
175200 174982 0 218 0 0 0
in 73280. seconds
Spectrum has 174982 counts for 2.388 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
420839 420274 0 565 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
420839 420274 0 565 0 0 0
in 73280. seconds
Spectrum has 420274 counts for 5.735 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
420839 420274 0 565 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
420839 420274 0 565 0 0 0
in 73280. seconds
Spectrum has 420274 counts for 5.735 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
178222 177991 0 231 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
178222 177991 0 231 0 0 0
in 73280. seconds
Spectrum has 177991 counts for 2.429 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
178222 177991 0 231 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
178222 177991 0 231 0 0 0
in 73280. seconds
Spectrum has 177991 counts for 2.429 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
420445 419905 0 540 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
420445 419905 0 540 0 0 0
in 73280. seconds
Spectrum has 419905 counts for 5.730 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
420445 419905 0 540 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
420445 419905 0 540 0 0 0
in 73280. seconds
Spectrum has 419905 counts for 5.730 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
177512 177297 0 215 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
177512 177297 0 215 0 0 0
in 73280. seconds
Spectrum has 177297 counts for 2.419 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
177512 177297 0 215 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
177512 177297 0 215 0 0 0
in 73280. seconds
Spectrum has 177297 counts for 2.419 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
654150 653119 0 1031 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
654150 653119 0 1031 0 0 0
in 73280. seconds
Spectrum has 653119 counts for 8.913 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
654150 653119 0 1031 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
654150 653119 0 1031 0 0 0
in 73280. seconds
Spectrum has 653119 counts for 8.913 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
266580 266137 0 443 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
266580 266137 0 443 0 0 0
in 73280. seconds
Spectrum has 266137 counts for 3.632 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
266580 266137 0 443 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
266580 266137 0 443 0 0 0
in 73280. seconds
Spectrum has 266137 counts for 3.632 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
588038 587072 0 966 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
588038 587072 0 966 0 0 0
in 73280. seconds
Spectrum has 587072 counts for 8.011 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
588038 587072 0 966 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
588038 587072 0 966 0 0 0
in 73280. seconds
Spectrum has 587072 counts for 8.011 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
247858 247466 0 392 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
247858 247466 0 392 0 0 0
in 73280. seconds
Spectrum has 247466 counts for 3.377 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
247858 247466 0 392 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
247858 247466 0 392 0 0 0
in 73280. seconds
Spectrum has 247466 counts for 3.377 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
408232 407726 0 506 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
408232 407726 0 506 0 0 0
in 73280. seconds
Spectrum has 407726 counts for 5.564 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
408232 407726 0 506 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
408232 407726 0 506 0 0 0
in 73280. seconds
Spectrum has 407726 counts for 5.564 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
176348 176131 0 217 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
176348 176131 0 217 0 0 0
in 73280. seconds
Spectrum has 176131 counts for 2.404 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
176348 176131 0 217 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
176348 176131 0 217 0 0 0
in 73280. seconds
Spectrum has 176131 counts for 2.404 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
433312 432763 0 549 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
433312 432763 0 549 0 0 0
in 73280. seconds
Spectrum has 432763 counts for 5.906 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
433312 432763 0 549 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
433312 432763 0 549 0 0 0
in 73280. seconds
Spectrum has 432763 counts for 5.906 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
181334 181107 0 227 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
181334 181107 0 227 0 0 0
in 73280. seconds
Spectrum has 181107 counts for 2.471 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
181334 181107 0 227 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
181334 181107 0 227 0 0 0
in 73280. seconds
Spectrum has 181107 counts for 2.471 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
513557 512950 0 607 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
513557 512950 0 607 0 0 0
in 73280. seconds
Spectrum has 512950 counts for 7.000 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
513557 512950 0 607 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
513557 512950 0 607 0 0 0
in 73280. seconds
Spectrum has 512950 counts for 7.000 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
207641 207393 0 248 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
207641 207393 0 248 0 0 0
in 73280. seconds
Spectrum has 207393 counts for 2.830 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
207641 207393 0 248 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
207641 207393 0 248 0 0 0
in 73280. seconds
Spectrum has 207393 counts for 2.830 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
442151 441613 0 538 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
442151 441613 0 538 0 0 0
in 73280. seconds
Spectrum has 441613 counts for 6.026 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
442151 441613 0 538 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
442151 441613 0 538 0 0 0
in 73280. seconds
Spectrum has 441613 counts for 6.026 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
184726 184498 0 228 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
184726 184498 0 228 0 0 0
in 73280. seconds
Spectrum has 184498 counts for 2.518 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
184726 184498 0 228 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
184726 184498 0 228 0 0 0
in 73280. seconds
Spectrum has 184498 counts for 2.518 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
550629 549756 0 873 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
550629 549756 0 873 0 0 0
in 73280. seconds
Spectrum has 549756 counts for 7.502 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
550629 549756 0 873 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
550629 549756 0 873 0 0 0
in 73280. seconds
Spectrum has 549756 counts for 7.502 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
242192 241796 0 396 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
242192 241796 0 396 0 0 0
in 73280. seconds
Spectrum has 241796 counts for 3.300 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
242192 241796 0 396 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
242192 241796 0 396 0 0 0
in 73280. seconds
Spectrum has 241796 counts for 3.300 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
456423 455839 0 584 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
456423 455839 0 584 0 0 0
in 73280. seconds
Spectrum has 455839 counts for 6.221 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
456423 455839 0 584 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
456423 455839 0 584 0 0 0
in 73280. seconds
Spectrum has 455839 counts for 6.221 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
186395 186169 0 226 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
186395 186169 0 226 0 0 0
in 73280. seconds
Spectrum has 186169 counts for 2.541 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
186395 186169 0 226 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
186395 186169 0 226 0 0 0
in 73280. seconds
Spectrum has 186169 counts for 2.541 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
431829 431320 0 509 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
431829 431320 0 509 0 0 0
in 73280. seconds
Spectrum has 431320 counts for 5.886 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
431829 431320 0 509 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
431829 431320 0 509 0 0 0
in 73280. seconds
Spectrum has 431320 counts for 5.886 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
181322 181088 0 234 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
181322 181088 0 234 0 0 0
in 73280. seconds
Spectrum has 181088 counts for 2.471 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
181322 181088 0 234 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
181322 181088 0 234 0 0 0
in 73280. seconds
Spectrum has 181088 counts for 2.471 counts/sec
... written the PHA data Extension
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:06 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.485 +/- 5.8238E-03
Net count rate (cts/s) for file 2 2.485 +/- 5.8238E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 678856.5 using 168 PHA bins.
Reduced chi-squared = 4242.853 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15974.89 using 168 PHA bins.
Reduced chi-squared = 99.84308 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5419.15 -3 82.27 15.81 0.1449 1.019
0.5836 82.69 15.46 1.011
2042.57 -4 73.25 7.193 7.6955E-02 0.8951
0.4946 74.85 7.757 0.9007
1905.60 -3 76.61 15.45 0.1383 1.001
0.6557 78.44 17.33 0.9997
1022.96 0 76.16 9.729 0.1496 0.9984
0.6609 76.69 7.737 0.9990
635.100 -1 76.57 9.510 0.1428 0.9976
0.6752 77.43 9.763 0.9989
626.282 0 76.59 9.524 0.1430 0.9976
0.6761 77.69 10.03 0.9991
620.734 -1 76.61 9.577 0.1442 1.000
0.6823 77.91 10.31 1.002
594.366 -2 76.71 9.604 0.1452 1.019
0.7352 78.03 10.21 1.020
575.379 -2 76.78 9.624 0.1459 1.034
0.7824 78.12 10.24 1.035
574.427 -3 76.99 9.697 0.1482 1.075
0.9154 78.35 10.32 1.075
545.952 -4 77.07 9.730 0.1492 1.089
0.9870 78.44 10.33 1.091
543.769 -5 77.08 9.732 0.1492 1.089
0.9925 78.44 10.33 1.091
543.767 -6 77.08 9.733 0.1492 1.089
0.9925 78.44 10.33 1.091
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.98E-07 | 0.00 0.00 -0.37 0.64 -0.30 0.00 0.00 0.60
1.14E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.60E-06 | 0.00 0.01 -0.93 -0.24 0.13 0.00 0.04 -0.25
1.26E-03 | 0.02 -0.05 0.03 -0.06 -0.28 0.03 0.95 -0.06
1.83E-03 | -0.04 -0.04 0.02 0.23 0.90 -0.04 0.29 0.22
4.69E-02 | 0.74 0.67 0.01 0.01 0.05 -0.05 0.04 0.01
6.54E-02 | 0.46 -0.45 0.00 0.01 0.04 0.77 -0.04 0.01
5.41E-02 | 0.49 -0.59 0.00 -0.01 -0.02 -0.64 -0.03 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0836 +/- 0.229046 1
2 2 1 gaussian Sigma keV 9.73264 +/- 0.230096 1
3 3 1 gaussian norm 0.149239 +/- 0.326281E-02 1
4 4 2 powerlaw PhoIndex 1.08939 +/- 0.107743E-01 1
5 5 2 powerlaw norm 0.992499 +/- 0.425032E-01 1
6 6 3 gaussian LineE keV 78.4429 +/- 0.246143 2
7 7 3 gaussian Sigma keV 10.3323 +/- 0.389410E-01 2
8 3 3 gaussian norm 0.149239 = par 3 2
9 8 4 powerlaw PhoIndex 1.09129 +/- 0.103515E-01 2
10 5 4 powerlaw norm 0.992499 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 543.7667 using 168 PHA bins.
Reduced chi-squared = 3.398542 for 160 degrees of freedom
Null hypothesis probability = 2.719E-43
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.256) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.256) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9147 photons ( 1.0843E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9085 photons ( 1.0801E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:06 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.959 +/- 9.0176E-03
Net count rate (cts/s) for file 2 5.959 +/- 9.0176E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.473 +/- 1.0735E-02( 58.3% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.473 +/- 1.0735E-02( 58.3% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.0770669E+07 using 198 PHA bins.
Reduced chi-squared = 56687.73 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 85391.47 using 198 PHA bins.
Reduced chi-squared = 449.4288 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
46625.8 -3 116.2 18.85 0.3713 2.815
0.1553 109.9 18.86 2.752
22509.0 -2 106.8 19.30 1.325 6.486
7.5076E-02 109.9 19.28 7.892
20466.0 -1 108.9 19.34 1.278 8.555
2.3626E-02 110.5 19.34 9.301
19159.3 -1 110.6 19.36 1.250 9.416
9.8840E-03 111.2 19.35 9.413
18254.6 -1 111.7 19.37 1.230 9.476
3.2047E-03 111.8 19.36 9.485
17414.2 -1 112.7 19.37 1.205 9.498
1.4022E-03 112.5 19.36 9.497
16745.7 -1 113.4 19.37 1.182 9.499
2.4691E-04 113.1 19.37 9.498
16269.7 -1 114.0 19.37 1.165 9.500
8.0393E-05 113.6 19.37 9.500
15958.9 -1 114.4 19.37 1.153 9.500
3.7927E-05 114.0 19.37 9.500
15580.2 -1 114.9 19.37 1.134 9.500
1.7292E-05 114.4 19.37 9.500
15493.0 -1 115.1 19.37 1.131 9.500
6.4304E-06 114.6 19.37 9.500
15340.2 -1 115.3 19.37 1.123 9.500
1.2210E-06 114.8 19.37 9.500
15251.7 -1 115.5 19.37 1.118 9.500
5.6399E-07 114.9 19.37 9.500
15199.7 -1 115.6 19.37 1.115 9.500
2.3616E-07 115.0 19.37 9.500
15142.1 -1 115.7 19.37 1.112 9.500
7.0159E-08 115.0 19.37 9.500
15087.7 -1 115.8 19.37 1.108 3.161
9.6038E-09 115.1 19.37 9.500
15074.8 -1 116.2 19.37 1.112 -0.6511
4.5228E-09 114.7 19.37 9.500
14968.4 -1 116.3 19.37 1.103 7.914
1.4013E-09 114.8 19.37 9.500
14944.1 -2 116.0 19.37 1.094 9.218
2.0189E-10 114.8 19.37 9.500
14918.2 -1 116.0 19.37 1.094 1.252
7.0655E-11 115.0 19.37 9.500
14671.9 0 116.6 19.37 1.075 8.045
7.5567E-12 115.2 19.37 9.500
14647.8 -1 116.6 19.37 1.072 9.185
1.1793E-12 115.4 19.37 9.500
14506.8 0 117.0 19.37 1.059 9.444
4.9272E-13 115.6 19.37 9.500
14421.8 0 117.4 19.37 1.051 9.479
1.1826E-13 115.8 19.37 9.500
Fit parameter 5 has pegged
14323.2 0 117.8 19.37 1.038 9.536
0.000 116.0 19.32 9.500
Fit parameter 5 has pegged
14294.8 0 117.9 19.37 1.033 9.536
0.000 116.1 19.28 9.500
Fit parameter 5 has pegged
14275.1 0 118.1 19.37 1.030 9.536
0.000 116.1 19.25 9.500
Fit parameter 5 has pegged
14260.0 0 118.1 19.37 1.027 9.536
0.000 116.2 19.23 9.500
Fit parameter 5 has pegged
14249.3 0 118.2 19.37 1.025 9.536
0.000 116.3 19.21 9.500
Fit parameter 5 has pegged
14242.1 0 118.3 19.37 1.024 9.536
0.000 116.3 19.20 9.500
Fit parameter 5 has pegged
14236.6 0 118.3 19.37 1.023 9.536
0.000 116.3 19.17 9.500
Fit parameter 5 has pegged
14231.1 0 118.3 19.37 1.021 9.536
0.000 116.4 19.16 9.500
Fit parameter 5 has pegged
14226.9 0 118.4 19.37 1.020 9.536
0.000 116.4 19.15 9.500
Fit parameter 5 has pegged
14223.8 0 118.4 19.37 1.020 9.536
0.000 116.4 19.15 9.500
Fit parameter 5 has pegged
14222.3 0 118.4 19.37 1.019 9.536
0.000 116.5 19.14 9.500
Fit parameter 5 has pegged
14221.0 0 118.4 19.37 1.019 9.536
0.000 116.5 19.13 9.500
Fit parameter 5 has pegged
14219.9 0 118.4 19.37 1.019 9.536
0.000 116.5 19.12 9.500
Fit parameter 5 has pegged
14219.4 0 118.4 19.37 1.019 9.536
0.000 116.5 19.11 9.500
Fit parameter 5 has pegged
14219.3 0 118.4 19.37 1.018 9.536
0.000 116.5 19.11 9.500
Fit parameter 5 has pegged
14218.1 0 118.4 19.37 1.018 9.536
0.000 116.5 19.11 9.500
Fit parameter 5 has pegged
14217.7 0 118.4 19.37 1.018 9.536
0.000 116.5 19.11 9.500
Fit parameter 5 has pegged
14212.8 0 118.5 19.37 1.017 9.536
0.000 116.5 19.11 9.500
Fit parameter 5 has pegged
14208.5 0 118.5 19.37 1.016 9.536
0.000 116.5 19.11 9.500
Fit parameter 5 has pegged
14204.4 0 118.6 19.37 1.016 9.536
0.000 116.5 19.11 9.500
Fit parameter 5 has pegged
14200.8 0 118.6 19.37 1.015 9.536
0.000 116.5 19.11 9.500
Fit parameter 5 has pegged
14197.6 0 118.7 19.37 1.014 9.536
0.000 116.5 19.11 9.500
Fit parameter 5 has pegged
14194.6 0 118.7 19.37 1.014 9.536
0.000 116.5 19.10 9.500
Fit parameter 5 has pegged
14191.9 0 118.7 19.37 1.013 9.536
0.000 116.5 19.10 9.500
Fit parameter 5 has pegged
14189.5 0 118.8 19.37 1.012 9.536
0.000 116.5 19.10 9.500
Fit parameter 5 has pegged
14187.2 0 118.8 19.37 1.012 9.536
0.000 116.6 19.10 9.500
Fit parameter 5 has pegged
14185.2 0 118.8 19.37 1.011 9.536
0.000 116.6 19.10 9.500
Fit parameter 5 has pegged
14183.4 0 118.9 19.37 1.011 9.536
0.000 116.6 19.09 9.500
Fit parameter 5 has pegged
14181.8 0 118.9 19.37 1.010 9.536
0.000 116.6 19.09 9.500
Fit parameter 5 has pegged
14180.2 0 118.9 19.37 1.010 9.536
0.000 116.6 19.09 9.500
Fit parameter 5 has pegged
14178.8 0 118.9 19.37 1.009 9.536
0.000 116.6 19.09 9.500
Fit parameter 5 has pegged
14177.5 0 119.0 19.37 1.009 9.536
0.000 116.6 19.09 9.500
Fit parameter 5 has pegged
14176.3 0 119.0 19.37 1.009 9.536
0.000 116.6 19.08 9.500
Fit parameter 5 has pegged
14175.3 0 119.0 19.37 1.008 9.536
0.000 116.6 19.08 9.500
Fit parameter 5 has pegged
14174.2 0 119.0 19.37 1.008 9.536
0.000 116.6 19.08 9.500
Fit parameter 5 has pegged
14173.3 0 119.0 19.37 1.007 9.536
0.000 116.6 19.08 9.500
Fit parameter 5 has pegged
14172.5 0 119.0 19.37 1.007 9.536
0.000 116.6 19.07 9.500
Fit parameter 5 has pegged
14171.7 0 119.1 19.37 1.007 9.536
0.000 116.6 19.07 9.500
Fit parameter 5 has pegged
14170.9 0 119.1 19.37 1.006 9.536
0.000 116.6 19.07 9.500
Fit parameter 5 has pegged
14170.3 0 119.1 19.37 1.006 9.536
0.000 116.6 19.07 9.500
Fit parameter 5 has pegged
14169.7 0 119.1 19.37 1.006 9.536
0.000 116.6 19.07 9.500
Fit parameter 5 has pegged
14169.1 0 119.1 19.37 1.006 9.536
0.000 116.6 19.06 9.500
Fit parameter 5 has pegged
14168.6 0 119.1 19.37 1.005 9.536
0.000 116.7 19.06 9.500
Fit parameter 5 has pegged
14168.0 0 119.1 19.37 1.005 9.536
0.000 116.7 19.06 9.500
Fit parameter 5 has pegged
14167.6 0 119.1 19.37 1.005 9.536
0.000 116.7 19.06 9.500
Fit parameter 5 has pegged
14167.1 0 119.2 19.37 1.005 9.536
0.000 116.7 19.05 9.500
Fit parameter 5 has pegged
14166.7 0 119.2 19.37 1.004 9.536
0.000 116.7 19.05 9.500
Fit parameter 5 has pegged
14166.4 0 119.2 19.37 1.004 9.536
0.000 116.7 19.05 9.500
Fit parameter 5 has pegged
14166.0 0 119.2 19.37 1.004 9.536
0.000 116.7 19.05 9.500
Fit parameter 5 has pegged
14165.7 0 119.2 19.37 1.004 9.536
0.000 116.7 19.05 9.500
Fit parameter 5 has pegged
14165.3 0 119.2 19.37 1.004 9.536
0.000 116.7 19.04 9.500
Fit parameter 5 has pegged
14165.0 0 119.2 19.37 1.003 9.536
0.000 116.7 19.04 9.500
Fit parameter 5 has pegged
14164.8 0 119.2 19.37 1.003 9.536
0.000 116.7 19.04 9.500
Fit parameter 5 has pegged
14164.5 0 119.2 19.37 1.003 9.536
0.000 116.7 19.04 9.500
Fit parameter 5 has pegged
14164.2 0 119.2 19.37 1.003 9.536
0.000 116.7 19.04 9.500
Fit parameter 5 has pegged
14164.0 0 119.2 19.37 1.003 9.536
0.000 116.7 19.04 9.500
Fit parameter 5 has pegged
14163.8 0 119.2 19.37 1.003 9.536
0.000 116.7 19.03 9.500
Fit parameter 5 has pegged
14163.6 0 119.2 19.37 1.002 9.536
0.000 116.7 19.03 9.500
Fit parameter 5 has pegged
14163.4 0 119.3 19.37 1.002 9.536
0.000 116.7 19.03 9.500
Fit parameter 5 has pegged
14163.2 0 119.3 19.37 1.002 9.536
0.000 116.7 19.03 9.500
Fit parameter 5 has pegged
14163.0 0 119.3 19.37 1.002 9.536
0.000 116.7 19.03 9.500
Fit parameter 5 has pegged
14162.9 0 119.3 19.37 1.002 9.536
0.000 116.8 19.03 9.500
Fit parameter 5 has pegged
14162.7 0 119.3 19.37 1.002 9.536
0.000 116.8 19.02 9.500
Fit parameter 5 has pegged
14162.6 0 119.3 19.37 1.002 9.536
0.000 116.8 19.02 9.500
Fit parameter 5 has pegged
14162.4 0 119.3 19.37 1.002 9.536
0.000 116.8 19.02 9.500
Fit parameter 5 has pegged
14162.3 0 119.3 19.37 1.001 9.536
0.000 116.8 19.02 9.500
Fit parameter 5 has pegged
14162.1 0 119.3 19.37 1.001 9.536
0.000 116.8 19.02 9.500
Fit parameter 5 has pegged
14162.0 0 119.3 19.37 1.001 9.536
0.000 116.8 19.02 9.500
Fit parameter 5 has pegged
14161.9 0 119.3 19.37 1.001 9.536
0.000 116.8 19.02 9.500
Fit parameter 5 has pegged
14161.8 0 119.3 19.37 1.001 9.536
0.000 116.8 19.01 9.500
Fit parameter 5 has pegged
14161.7 0 119.3 19.37 1.001 9.536
0.000 116.8 19.01 9.500
Fit parameter 5 has pegged
14161.6 0 119.3 19.37 1.001 9.536
0.000 116.8 19.01 9.500
Fit parameter 5 has pegged
14161.5 0 119.3 19.37 1.001 9.536
0.000 116.8 19.01 9.500
Fit parameter 5 has pegged
14161.4 0 119.3 19.37 1.001 9.536
0.000 116.8 19.01 9.500
Fit parameter 5 has pegged
14161.3 0 119.3 19.37 1.001 9.536
0.000 116.8 19.01 9.500
Fit parameter 5 has pegged
14161.2 0 119.3 19.37 1.001 9.536
0.000 116.8 19.00 9.500
Fit parameter 5 has pegged
14161.1 0 119.3 19.37 1.000 9.536
0.000 116.8 19.00 9.500
Fit parameter 5 has pegged
14161.1 0 119.3 19.37 1.000 9.536
0.000 116.8 19.00 9.500
14161.0 0 119.3 19.37 1.000 9.536
0.000 116.8 19.00 9.500
Fit parameter 5 has pegged
14160.9 0 119.3 19.37 1.000 9.536
0.000 116.8 19.00 9.500
Fit parameter 5 has pegged
14160.8 0 119.3 19.37 1.000 9.536
0.000 116.8 19.00 9.500
Fit parameter 5 has pegged
14160.7 0 119.3 19.37 1.000 9.536
0.000 116.8 19.00 9.500
Fit parameter 5 has pegged
14160.7 0 119.3 19.37 1.000 9.536
0.000 116.8 19.00 9.500
Fit parameter 5 has pegged
14160.7 0 119.3 19.37 0.9999 9.536
0.000 116.8 18.99 9.500
Fit parameter 5 has pegged
14160.6 0 119.3 19.37 0.9999 9.536
0.000 116.8 18.99 9.500
Fit parameter 5 has pegged
14160.5 0 119.3 19.37 0.9998 9.536
0.000 116.8 18.99 9.500
Fit parameter 5 has pegged
14160.5 0 119.3 19.37 0.9998 9.536
0.000 116.8 18.99 9.500
Fit parameter 5 has pegged
14160.5 0 119.3 19.37 0.9997 9.536
0.000 116.8 18.99 9.500
Fit parameter 5 has pegged
14160.4 0 119.3 19.37 0.9997 9.536
0.000 116.8 18.99 9.500
Fit parameter 5 has pegged
14160.4 0 119.3 19.37 0.9996 9.536
0.000 116.8 18.99 9.500
14160.2 0 119.3 19.37 0.9995 9.536
0.000 116.9 18.99 9.500
Fit parameter 5 has pegged
14160.2 3 119.3 19.37 0.9995 9.536
0.000 116.9 18.99 9.500
14160.2 4 119.3 19.37 0.9995 9.536
0.000 116.9 18.99 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.35E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.48E-02 | 0.26 0.01 0.01 -0.94 -0.20
1.89E-02 | -0.96 -0.06 0.01 -0.25 -0.08
2.55E+00 | -0.06 0.99 0.00 -0.03 0.09
3.14E-01 | -0.02 -0.09 0.00 -0.21 0.97
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 119.337 +/- 0.170757 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.58676 1
3 3 1 gaussian norm 0.999543 +/- 0.486894E-02 1
4 4 2 powerlaw PhoIndex 9.53605 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 116.859 +/- 0.174243 2
7 7 3 gaussian Sigma keV 18.9891 +/- 0.562703 2
8 3 3 gaussian norm 0.999543 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 14160.24 using 198 PHA bins.
Reduced chi-squared = 74.52756 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 71.879) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 71.879) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8405 photons ( 1.6822E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8122 photons ( 1.6026E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:07 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.485 +/- 5.8238E-03
Net count rate (cts/s) for file 2 2.485 +/- 5.8238E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 779437.8 using 168 PHA bins.
Reduced chi-squared = 4871.486 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 23810.24 using 168 PHA bins.
Reduced chi-squared = 148.8140 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
16967.9 -3 85.38 13.51 0.1177 1.122
0.7037 85.63 12.77 1.109
2887.61 -4 71.68 14.48 0.1530 1.012
0.7982 74.09 13.50 1.020
2001.54 -3 82.57 8.652 9.2706E-02 1.126
1.129 81.61 9.250 1.122
1714.99 -4 75.98 17.19 0.1469 1.109
1.085 77.61 15.73 1.112
745.024 0 77.29 7.959 0.1536 1.111
1.078 78.18 9.886 1.113
625.458 -1 77.06 9.607 0.1505 1.109
1.079 78.48 12.23 1.111
550.138 -2 77.17 9.653 0.1470 1.105
1.061 78.66 9.936 1.106
549.602 0 77.17 9.653 0.1471 1.105
1.061 78.65 9.966 1.106
547.213 0 77.18 9.663 0.1475 1.105
1.061 78.61 10.32 1.106
545.956 -1 77.16 9.757 0.1497 1.104
1.058 78.54 10.34 1.106
545.124 -2 77.15 9.767 0.1502 1.101
1.044 78.51 10.37 1.103
543.927 -3 77.11 9.738 0.1494 1.092
1.006 78.46 10.34 1.095
543.778 -4 77.09 9.734 0.1493 1.089
0.9931 78.44 10.33 1.091
543.766 -5 77.08 9.732 0.1492 1.089
0.9925 78.44 10.33 1.091
543.766 -2 77.08 9.733 0.1492 1.089
0.9925 78.44 10.33 1.091
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.97E-07 | 0.00 0.00 -0.37 0.64 -0.30 0.00 0.00 0.60
1.14E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.60E-06 | 0.00 0.01 -0.93 -0.24 0.13 0.00 0.04 -0.25
1.26E-03 | 0.02 -0.05 0.03 -0.06 -0.28 0.03 0.95 -0.06
1.83E-03 | -0.04 -0.04 0.02 0.23 0.90 -0.04 0.29 0.22
4.69E-02 | 0.74 0.67 0.01 0.01 0.05 -0.05 0.04 0.01
6.54E-02 | 0.46 -0.45 0.00 0.01 0.04 0.76 -0.04 0.01
5.41E-02 | 0.49 -0.59 0.00 -0.01 -0.02 -0.64 -0.03 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0836 +/- 0.229051 1
2 2 1 gaussian Sigma keV 9.73265 +/- 0.230103 1
3 3 1 gaussian norm 0.149239 +/- 0.326284E-02 1
4 4 2 powerlaw PhoIndex 1.08938 +/- 0.107727E-01 1
5 5 2 powerlaw norm 0.992487 +/- 0.424969E-01 1
6 6 3 gaussian LineE keV 78.4429 +/- 0.246141 2
7 7 3 gaussian Sigma keV 10.3323 +/- 0.389410E-01 2
8 3 3 gaussian norm 0.149239 = par 3 2
9 8 4 powerlaw PhoIndex 1.09129 +/- 0.103502E-01 2
10 5 4 powerlaw norm 0.992487 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 543.7662 using 168 PHA bins.
Reduced chi-squared = 3.398539 for 160 degrees of freedom
Null hypothesis probability = 2.719E-43
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.256) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.256) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9147 photons ( 1.0843E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9085 photons ( 1.0801E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
99.84308
=====best line=====
77.0836 0.229046
=====best sigma=====
9.73264 0.230096
=====norm=====
0.149239 0.326281E-02
=====phoindx=====
1.08939 0.107743E-01
=====pow_norm=====
0.992499 0.425032E-01
=====best line=====
78.4429 0.246143
=====best sigma=====
10.3323 0.389410E-01
=====norm=====
0.149239 par
=====phoindx=====
1.09129 0.103515E-01
=====pow_norm=====
0.992499 par
=====redu_chi=====
3.398542
=====area_flux=====
0.9147
=====area_flux_f=====
0.9085
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 0 1 640 2000 1233.3376 0 0.149239 0.326281E-02 9.73264 0.230096 1.08939 0.107743E-01 0.992499 0.425032E-01 0.9147 640 2000 1255.0864 0 0.149239 0.326281E-02 10.3323 0.389410E-01 1.09129 0.103515E-01 0.992499 0.425032E-01 0.9085 3.398542 1
=====redu_chi=====
449.4288
=====best line=====
119.337 0.170757
=====best sigma=====
19.3655 1.58676
=====norm=====
0.999543 0.486894E-02
=====phoindx=====
9.53605 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.859 0.174243
=====best sigma=====
18.9891 0.562703
=====norm=====
0.999543 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
74.52756
=====area_flux=====
0.8405
=====area_flux_f=====
0.8122
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 0 1 1600 3200 1909.392 0 0.999543 0.486894E-02 309.848 25.38816 9.53605 -1.00000 0.00000 -1.00000 0.8405 1600 3200 1869.744 0 0.999543 0.486894E-02 303.8256 9.003248 9.50000 -1.00000 0.00000 -1.00000 0.8122 74.52756 1
=====redu_chi=====
148.8140
=====best line=====
77.0836 0.229051
=====best sigma=====
9.73265 0.230103
=====norm=====
0.149239 0.326284E-02
=====phoindx=====
1.08938 0.107727E-01
=====pow_norm=====
0.992487 0.424969E-01
=====best line=====
78.4429 0.246141
=====best sigma=====
10.3323 0.389410E-01
=====norm=====
0.149239 par
=====phoindx=====
1.09129 0.103502E-01
=====pow_norm=====
0.992487 par
=====redu_chi=====
3.398539
=====area_flux=====
0.9147
=====area_flux_f=====
0.9085
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 0 1 640 2000 1233.3376 0 0.149239 0.326284E-02 9.73265 0.230103 1.08938 0.107727E-01 0.992487 0.424969E-01 0.9147 640 2000 1255.0864 0 0.149239 0.326284E-02 10.3323 0.389410E-01 1.09129 0.103502E-01 0.992487 0.424969E-01 0.9085 3.398539 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:07 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.743 +/- 6.1187E-03
Net count rate (cts/s) for file 2 2.743 +/- 6.1187E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 611030.4 using 168 PHA bins.
Reduced chi-squared = 3818.940 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12393.26 using 168 PHA bins.
Reduced chi-squared = 77.45786 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1917.60 -3 83.20 15.44 0.1554 0.9117
0.4600 84.00 14.76 0.9083
1360.65 -3 76.38 7.716 7.7548E-02 0.8415
0.3836 78.95 8.427 0.8439
1232.21 -3 78.63 11.46 0.1411 0.9192
0.4814 81.22 15.74 0.9181
836.238 -4 79.10 9.436 0.1105 0.9403
0.5577 80.74 7.172 0.9409
530.508 -5 78.29 9.053 0.1409 0.9601
0.5915 80.79 10.26 0.9603
520.740 -6 78.42 9.254 0.1448 0.9640
0.6008 80.76 9.976 0.9650
520.630 -7 78.45 9.235 0.1450 0.9645
0.6024 80.76 9.959 0.9657
520.621 -8 78.45 9.251 0.1452 0.9646
0.6027 80.76 9.955 0.9658
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.48E-07 | 0.00 0.00 -0.33 0.60 -0.46 0.00 0.00 0.57
1.08E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.15E-06 | 0.00 0.01 -0.94 -0.19 0.18 0.00 0.01 -0.20
7.54E-04 | 0.03 0.02 -0.02 -0.36 -0.87 0.03 0.02 -0.34
2.09E-02 | -0.02 -0.39 0.01 0.01 0.01 0.06 0.92 0.01
4.56E-02 | 0.91 0.35 0.00 0.01 0.03 -0.12 0.17 0.01
6.06E-02 | -0.33 0.46 0.01 0.00 -0.02 -0.79 0.25 0.00
5.22E-02 | -0.24 0.71 0.01 0.01 0.02 0.60 0.26 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 78.4485 +/- 0.218168 1
2 2 1 gaussian Sigma keV 9.25077 +/- 0.219791 1
3 3 1 gaussian norm 0.145224 +/- 0.313633E-02 1
4 4 2 powerlaw PhoIndex 0.964635 +/- 0.106039E-01 1
5 5 2 powerlaw norm 0.602676 +/- 0.253988E-01 1
6 6 3 gaussian LineE keV 80.7561 +/- 0.239063 2
7 7 3 gaussian Sigma keV 9.95520 +/- 0.161800 2
8 3 3 gaussian norm 0.145224 = par 3 2
9 8 4 powerlaw PhoIndex 0.965839 +/- 0.101907E-01 2
10 5 4 powerlaw norm 0.602676 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 520.6205 using 168 PHA bins.
Reduced chi-squared = 3.253878 for 160 degrees of freedom
Null hypothesis probability = 9.482E-40
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.117) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.117) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9350 photons ( 1.1232E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9310 photons ( 1.1236E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:07 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.116 +/- 9.1357E-03
Net count rate (cts/s) for file 2 6.116 +/- 9.1357E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.372 +/- 1.0995E-02( 55.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.372 +/- 1.0995E-02( 55.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 9513922. using 198 PHA bins.
Reduced chi-squared = 50073.27 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 81090.00 using 198 PHA bins.
Reduced chi-squared = 426.7895 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
46677.3 -3 112.5 18.69 0.3797 2.823
0.1703 106.7 18.60 2.756
35525.1 -4 98.72 19.30 1.535 9.407
15.79 100.1 19.23 6.622
34182.9 -1 99.94 19.36 1.514 9.472
5.315 100.9 19.36 9.498
33067.0 -1 101.2 19.37 1.493 9.488
2.609 101.8 19.36 9.499
31790.3 -1 102.5 19.37 1.469 9.500
0.8452 102.9 19.37 9.500
30298.3 -1 103.8 19.37 1.440 9.500
0.3688 104.1 19.37 9.500
29165.0 -1 104.9 19.37 1.423 9.500
0.1197 105.2 19.37 9.500
27676.2 -1 106.1 19.37 1.396 9.500
3.6785E-02 106.4 19.37 9.500
26157.3 -1 107.2 19.37 1.369 9.500
1.2636E-02 107.5 19.37 9.500
24335.2 -1 108.4 19.37 1.333 9.500
5.6951E-03 108.8 19.37 9.500
22762.7 -1 109.6 19.37 1.305 9.500
9.7074E-04 109.9 19.37 9.500
21126.7 -1 110.8 19.37 1.272 9.500
2.5700E-05 111.1 19.37 9.500
18610.1 -1 112.9 19.37 1.220 0.6284
3.0458E-06 113.1 19.37 9.500
18329.4 -2 113.4 19.37 1.216 9.373
3.3017E-07 113.2 19.37 9.500
17290.8 -1 114.2 19.37 1.187 9.5030E-02
9.8866E-08 114.0 19.37 9.500
16875.2 -2 114.7 19.37 1.176 5.565
1.7016E-08 114.3 19.37 9.500
16779.8 -2 114.9 19.37 1.175 9.259
7.7153E-09 114.4 19.37 9.500
16187.0 -1 115.5 19.37 1.152 -1.804
3.3245E-09 115.0 19.37 9.500
15860.1 -2 115.7 19.37 1.144 -1.524
5.9119E-10 115.2 19.37 9.500
15793.5 -2 115.8 19.37 1.143 3.771
1.8239E-11 115.2 19.37 9.500
15205.6 -1 116.1 19.37 1.115 7.873
3.0615E+04 115.8 19.37 9.500
14898.7 -1 116.7 19.37 1.107 9.054
1.0167E+04 116.2 19.37 9.500
14839.1 -1 116.9 19.37 1.108 9.342
328.6 116.3 19.37 9.500
14265.8 0 117.6 19.37 1.077 9.484
67.83 116.8 19.37 9.500
13927.3 0 118.2 19.37 1.057 9.492
8.234 117.3 19.37 9.500
13715.6 0 118.7 19.37 1.042 9.497
0.5273 117.7 19.37 9.500
13581.0 0 119.1 19.37 1.032 9.499
3.2714E-02 118.0 19.37 9.500
13496.2 0 119.5 19.37 1.025 9.500
1.1865E-03 118.2 19.37 9.500
13438.3 0 119.7 19.37 1.019 9.500
3.0036E-04 118.4 19.37 9.500
13402.2 0 119.9 19.37 1.015 9.500
5.6993E-05 118.5 19.37 9.500
13376.3 0 120.1 19.37 1.011 9.500
2.5798E-05 118.6 19.37 9.500
13357.7 0 120.2 19.37 1.008 9.500
1.0034E-05 118.7 19.37 9.500
13346.6 0 120.3 19.37 1.007 9.500
2.1347E-06 118.7 19.37 9.500
13331.3 0 120.4 19.37 1.003 9.500
1.5529E-08 118.8 19.37 9.500
13328.5 0 120.3 19.37 1.002 9.500
6.2271E-09 118.8 19.37 9.500
13328.0 0 120.3 19.37 1.001 9.500
1.5992E-09 118.9 19.37 9.500
13326.6 0 120.3 19.37 1.000 9.500
4.4301E-10 118.9 19.37 9.500
13317.8 0 120.4 19.37 0.9986 9.500
1.1432E-10 118.9 19.36 9.500
13310.2 0 120.4 19.37 0.9970 9.500
3.2240E-11 118.9 19.36 9.500
13303.8 0 120.4 19.37 0.9954 9.500
1.1746E-11 118.9 19.36 9.500
13298.2 0 120.5 19.37 0.9940 9.500
1.5060E-12 118.8 19.36 9.500
13293.2 0 120.5 19.37 0.9927 9.500
2.2667E-13 118.8 19.35 9.500
13289.0 0 120.5 19.37 0.9915 9.500
6.6805E-14 118.8 19.35 9.500
Fit parameter 5 has pegged
13281.8 0 120.6 19.37 0.9893 9.500
0.000 118.8 19.35 9.500
Fit parameter 5 has pegged
13278.8 0 120.6 19.37 0.9883 9.500
0.000 118.8 19.34 9.500
Fit parameter 5 has pegged
13276.2 0 120.7 19.37 0.9874 9.500
0.000 118.8 19.34 9.500
Fit parameter 5 has pegged
13273.9 0 120.7 19.37 0.9865 9.500
0.000 118.8 19.33 9.500
Fit parameter 5 has pegged
13271.8 0 120.7 19.37 0.9858 9.500
0.000 118.8 19.33 9.500
Fit parameter 5 has pegged
13269.9 0 120.7 19.37 0.9850 9.500
0.000 118.8 19.33 9.500
Fit parameter 5 has pegged
13268.2 0 120.7 19.37 0.9844 9.500
0.000 118.8 19.32 9.500
Fit parameter 5 has pegged
13266.8 0 120.8 19.37 0.9837 9.500
0.000 118.8 19.32 9.500
Fit parameter 5 has pegged
13265.4 0 120.8 19.37 0.9831 9.500
0.000 118.8 19.32 9.500
Fit parameter 5 has pegged
13264.2 0 120.8 19.37 0.9826 9.500
0.000 118.8 19.31 9.500
Fit parameter 5 has pegged
13263.2 0 120.8 19.37 0.9821 9.500
0.000 118.8 19.31 9.500
Fit parameter 5 has pegged
13262.2 0 120.8 19.37 0.9816 9.500
0.000 118.8 19.31 9.500
Fit parameter 5 has pegged
13261.2 0 120.8 19.37 0.9812 9.500
0.000 118.8 19.31 9.500
Fit parameter 5 has pegged
13260.4 0 120.8 19.37 0.9808 9.500
0.000 118.8 19.31 9.500
Fit parameter 5 has pegged
13259.6 0 120.9 19.37 0.9804 9.500
0.000 118.8 19.31 9.500
Fit parameter 5 has pegged
13258.9 0 120.9 19.37 0.9800 9.500
0.000 118.8 19.30 9.500
Fit parameter 5 has pegged
13258.2 0 120.9 19.37 0.9797 9.500
0.000 118.8 19.30 9.500
Fit parameter 5 has pegged
13257.6 0 120.9 19.37 0.9793 9.500
0.000 118.8 19.30 9.500
Fit parameter 5 has pegged
13257.0 0 120.9 19.37 0.9790 9.500
0.000 118.8 19.30 9.500
Fit parameter 5 has pegged
13256.5 0 120.9 19.37 0.9787 9.500
0.000 118.8 19.29 9.500
Fit parameter 5 has pegged
13256.0 0 120.9 19.37 0.9785 9.500
0.000 118.8 19.29 9.500
Fit parameter 5 has pegged
13255.6 0 120.9 19.37 0.9782 9.500
0.000 118.8 19.29 9.500
Fit parameter 5 has pegged
13255.1 0 121.0 19.37 0.9780 9.500
0.000 118.9 19.29 9.500
Fit parameter 5 has pegged
13254.7 0 121.0 19.37 0.9777 9.500
0.000 118.9 19.28 9.500
Fit parameter 5 has pegged
13254.3 0 121.0 19.37 0.9775 9.500
0.000 118.9 19.28 9.500
Fit parameter 5 has pegged
13254.0 0 121.0 19.37 0.9773 9.500
0.000 118.9 19.28 9.500
Fit parameter 5 has pegged
13253.7 0 121.0 19.37 0.9771 9.500
0.000 118.9 19.28 9.500
Fit parameter 5 has pegged
13253.4 0 121.0 19.37 0.9769 9.500
0.000 118.9 19.27 9.500
Fit parameter 5 has pegged
13253.1 0 121.0 19.37 0.9767 9.500
0.000 118.9 19.27 9.500
Fit parameter 5 has pegged
13252.8 0 121.0 19.37 0.9766 9.500
0.000 118.9 19.27 9.500
Fit parameter 5 has pegged
13252.5 0 121.0 19.37 0.9764 9.500
0.000 118.9 19.27 9.500
Fit parameter 5 has pegged
13252.3 0 121.0 19.37 0.9763 9.500
0.000 118.9 19.27 9.500
Fit parameter 5 has pegged
13252.0 0 121.0 19.37 0.9761 9.500
0.000 118.9 19.27 9.500
Fit parameter 5 has pegged
13251.9 0 121.0 19.37 0.9760 9.500
0.000 118.9 19.27 9.500
Fit parameter 5 has pegged
13251.7 0 121.0 19.37 0.9758 9.500
0.000 118.9 19.26 9.500
Fit parameter 5 has pegged
13251.4 0 121.0 19.37 0.9757 9.500
0.000 118.9 19.26 9.500
Fit parameter 5 has pegged
13251.3 0 121.0 19.37 0.9756 9.500
0.000 118.9 19.26 9.500
Fit parameter 5 has pegged
13251.1 0 121.0 19.37 0.9754 9.500
0.000 118.9 19.26 9.500
Fit parameter 5 has pegged
13251.0 0 121.1 19.37 0.9753 9.500
0.000 118.9 19.26 9.500
Fit parameter 5 has pegged
13250.8 0 121.1 19.37 0.9752 9.500
0.000 118.9 19.25 9.500
Fit parameter 5 has pegged
13250.6 0 121.1 19.37 0.9751 9.500
0.000 118.9 19.25 9.500
Fit parameter 5 has pegged
13250.5 0 121.1 19.37 0.9750 9.500
0.000 118.9 19.25 9.500
Fit parameter 5 has pegged
13250.4 0 121.1 19.37 0.9749 9.500
0.000 118.9 19.25 9.500
Fit parameter 5 has pegged
13250.3 0 121.1 19.37 0.9748 9.500
0.000 118.9 19.25 9.500
Fit parameter 5 has pegged
13250.2 0 121.1 19.37 0.9747 9.500
0.000 119.0 19.25 9.500
Fit parameter 5 has pegged
13250.1 0 121.1 19.37 0.9746 9.500
0.000 119.0 19.25 9.500
Fit parameter 5 has pegged
13250.0 0 121.1 19.37 0.9746 9.500
0.000 119.0 19.25 9.500
Fit parameter 5 has pegged
13249.8 0 121.1 19.37 0.9745 9.500
0.000 119.0 19.25 9.500
Fit parameter 5 has pegged
13249.8 0 121.1 19.37 0.9744 9.500
0.000 119.0 19.25 9.500
Fit parameter 5 has pegged
13249.7 0 121.1 19.37 0.9743 9.500
0.000 119.0 19.24 9.500
Fit parameter 5 has pegged
13249.7 0 121.1 19.37 0.9743 9.500
0.000 119.0 19.24 9.500
Fit parameter 5 has pegged
13249.5 0 121.1 19.37 0.9742 9.500
0.000 119.0 19.24 9.500
Fit parameter 5 has pegged
13249.5 0 121.1 19.37 0.9741 9.500
0.000 119.0 19.24 9.500
Fit parameter 5 has pegged
13249.4 0 121.1 19.37 0.9741 9.500
0.000 119.0 19.24 9.500
Fit parameter 5 has pegged
13249.3 0 121.1 19.37 0.9740 9.500
0.000 119.0 19.24 9.500
Fit parameter 5 has pegged
13249.3 0 121.1 19.37 0.9739 9.500
0.000 119.0 19.24 9.500
Fit parameter 5 has pegged
13249.2 0 121.1 19.37 0.9739 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13249.1 1 121.1 19.37 0.9739 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13249.1 0 121.1 19.37 0.9738 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13249.0 0 121.1 19.37 0.9737 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13249.0 0 121.1 19.37 0.9737 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13249.0 0 121.1 19.37 0.9736 9.500
0.000 119.0 19.23 9.500
13248.8 0 121.1 19.37 0.9736 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13248.8 0 121.1 19.37 0.9735 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13248.7 0 121.1 19.37 0.9735 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13248.7 3 121.1 19.37 0.9735 9.500
0.000 119.0 19.23 9.500
13248.7 0 121.1 19.37 0.9735 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13248.6 0 121.1 19.37 0.9734 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13248.5 0 121.1 19.37 0.9734 9.500
0.000 119.0 19.23 9.500
Fit parameter 5 has pegged
13248.5 4 121.1 19.37 0.9734 9.500
0.000 119.0 19.23 9.500
13248.5 4 121.1 19.37 0.9734 9.500
0.000 119.0 19.23 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.33E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.60E-02 | 0.23 0.00 0.01 -0.97 -0.11
2.01E-02 | -0.97 -0.05 0.01 -0.23 -0.04
2.84E+00 | -0.05 0.99 0.00 -0.03 0.16
9.21E-01 | 0.00 -0.16 0.00 -0.11 0.98
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 121.127 +/- 0.167368 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.66804 1
3 3 1 gaussian norm 0.973360 +/- 0.464491E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 119.017 +/- 0.173533 2
7 7 3 gaussian Sigma keV 19.2286 +/- 0.978272 2
8 3 3 gaussian norm 0.973360 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13248.53 using 198 PHA bins.
Reduced chi-squared = 69.72910 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 67.251) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 67.251) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8393 photons ( 1.6952E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8162 photons ( 1.6298E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.743 +/- 6.1187E-03
Net count rate (cts/s) for file 2 2.743 +/- 6.1187E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 696437.1 using 168 PHA bins.
Reduced chi-squared = 4352.731 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19820.99 using 168 PHA bins.
Reduced chi-squared = 123.8812 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3744.94 -3 85.69 13.38 0.1340 0.9825
0.5554 86.23 12.23 0.9746
995.344 -4 75.08 11.73 0.1359 0.8932
0.4494 78.48 10.85 0.8970
836.892 -3 80.75 9.586 0.1267 0.9619
0.5810 81.39 9.838 0.9604
546.014 -4 78.08 9.829 0.1474 0.9677
0.6070 80.67 10.72 0.9683
525.417 -5 78.62 8.919 0.1413 0.9627
0.6010 80.81 9.942 0.9640
521.095 -6 78.39 9.366 0.1461 0.9652
0.6033 80.75 10.000 0.9663
520.786 -7 78.48 9.193 0.1446 0.9642
0.6022 80.76 9.974 0.9655
520.631 -8 78.44 9.263 0.1453 0.9646
0.6026 80.76 9.962 0.9658
520.622 -9 78.45 9.240 0.1451 0.9646
0.6026 80.76 9.953 0.9658
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.48E-07 | 0.00 0.00 -0.33 0.60 -0.46 0.00 0.00 0.57
1.09E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.17E-06 | 0.00 0.01 -0.94 -0.19 0.18 0.00 0.01 -0.20
7.55E-04 | 0.03 0.02 -0.02 -0.36 -0.87 0.03 0.03 -0.34
1.72E-02 | -0.01 -0.32 0.01 0.01 0.02 0.06 0.95 0.01
4.56E-02 | 0.89 0.42 0.00 0.01 0.03 -0.12 0.16 0.01
6.00E-02 | -0.34 0.43 0.00 -0.01 -0.02 -0.81 0.19 -0.01
5.18E-02 | -0.31 0.73 0.01 0.01 0.02 0.57 0.21 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 78.4544 +/- 0.218801 1
2 2 1 gaussian Sigma keV 9.23978 +/- 0.220487 1
3 3 1 gaussian norm 0.145121 +/- 0.314408E-02 1
4 4 2 powerlaw PhoIndex 0.964580 +/- 0.106108E-01 1
5 5 2 powerlaw norm 0.602627 +/- 0.254206E-01 1
6 6 3 gaussian LineE keV 80.7571 +/- 0.238771 2
7 7 3 gaussian Sigma keV 9.95323 +/- 0.144968 2
8 3 3 gaussian norm 0.145121 = par 3 2
9 8 4 powerlaw PhoIndex 0.965791 +/- 0.101973E-01 2
10 5 4 powerlaw norm 0.602627 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 520.6223 using 168 PHA bins.
Reduced chi-squared = 3.253890 for 160 degrees of freedom
Null hypothesis probability = 9.476E-40
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.117) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.117) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9350 photons ( 1.1232E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9310 photons ( 1.1236E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
77.45786
=====best line=====
78.4485 0.218168
=====best sigma=====
9.25077 0.219791
=====norm=====
0.145224 0.313633E-02
=====phoindx=====
0.964635 0.106039E-01
=====pow_norm=====
0.602676 0.253988E-01
=====best line=====
80.7561 0.239063
=====best sigma=====
9.95520 0.161800
=====norm=====
0.145224 par
=====phoindx=====
0.965839 0.101907E-01
=====pow_norm=====
0.602676 par
=====redu_chi=====
3.253878
=====area_flux=====
0.9350
=====area_flux_f=====
0.9310
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 1 1 640 2000 1255.176 0 0.145224 0.313633E-02 9.25077 0.219791 0.964635 0.106039E-01 0.602676 0.253988E-01 0.9350 640 2000 1292.0976 0 0.145224 0.313633E-02 9.95520 0.161800 0.965839 0.101907E-01 0.602676 0.253988E-01 0.9310 3.253878 1
=====redu_chi=====
426.7895
=====best line=====
121.127 0.167368
=====best sigma=====
19.3655 1.66804
=====norm=====
0.973360 0.464491E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.017 0.173533
=====best sigma=====
19.2286 0.978272
=====norm=====
0.973360 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
69.72910
=====area_flux=====
0.8393
=====area_flux_f=====
0.8162
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 1 1 1600 3200 1938.032 0 0.973360 0.464491E-02 309.848 26.68864 9.50000 -1.00000 0.00000 -1.00000 0.8393 1600 3200 1904.272 0 0.973360 0.464491E-02 307.6576 15.652352 9.50000 -1.00000 0.00000 -1.00000 0.8162 69.72910 1
=====redu_chi=====
123.8812
=====best line=====
78.4544 0.218801
=====best sigma=====
9.23978 0.220487
=====norm=====
0.145121 0.314408E-02
=====phoindx=====
0.964580 0.106108E-01
=====pow_norm=====
0.602627 0.254206E-01
=====best line=====
80.7571 0.238771
=====best sigma=====
9.95323 0.144968
=====norm=====
0.145121 par
=====phoindx=====
0.965791 0.101973E-01
=====pow_norm=====
0.602627 par
=====redu_chi=====
3.253890
=====area_flux=====
0.9350
=====area_flux_f=====
0.9310
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 1 1 640 2000 1255.2704 0 0.145121 0.314408E-02 9.23978 0.220487 0.964580 0.106108E-01 0.602627 0.254206E-01 0.9350 640 2000 1292.1136 0 0.145121 0.314408E-02 9.95323 0.144968 0.965791 0.101973E-01 0.602627 0.254206E-01 0.9310 3.253890 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.272 +/- 6.6820E-03
Net count rate (cts/s) for file 2 3.272 +/- 6.6820E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 365940.3 using 168 PHA bins.
Reduced chi-squared = 2287.127 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21335.10 using 168 PHA bins.
Reduced chi-squared = 133.3444 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8161.83 -3 82.29 16.72 0.2561 1.041
0.8058 82.71 16.55 1.034
1079.18 -3 73.68 8.678 0.1707 0.8599
0.5217 74.92 9.053 0.8685
918.398 -2 74.99 9.490 0.1943 0.8877
0.5746 76.39 12.15 0.8890
742.823 -2 75.22 9.011 0.1866 0.9064
0.6274 76.46 9.828 0.9075
706.068 -2 75.20 9.346 0.1941 0.9224
0.6694 76.64 9.948 0.9239
686.593 -2 75.32 9.242 0.1934 0.9346
0.7067 76.72 9.887 0.9363
679.950 -3 75.48 9.297 0.1949 0.9691
0.8080 76.92 9.922 0.9699
656.900 -4 75.55 9.309 0.1955 0.9807
0.8582 77.00 9.924 0.9823
655.365 -5 75.55 9.317 0.1956 0.9807
0.8616 77.00 9.927 0.9829
655.362 -6 75.55 9.315 0.1956 0.9807
0.8617 77.00 9.926 0.9829
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.65E-07 | 0.00 0.00 -0.25 0.67 -0.35 0.00 0.00 0.61
8.16E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.73
6.97E-06 | 0.00 0.01 -0.97 -0.16 0.10 0.00 0.01 -0.17
9.74E-04 | 0.04 0.01 -0.01 -0.27 -0.93 0.04 0.01 -0.25
2.61E-02 | -0.16 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
5.79E-02 | 0.26 -0.54 -0.01 0.00 0.02 0.42 -0.68 0.00
3.64E-02 | 0.95 -0.02 0.00 0.01 0.03 -0.21 0.25 0.01
4.12E-02 | 0.11 0.33 0.00 0.01 0.04 0.88 0.32 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.5545 +/- 0.194002 1
2 2 1 gaussian Sigma keV 9.31527 +/- 0.192794 1
3 3 1 gaussian norm 0.195621 +/- 0.365088E-02 1
4 4 2 powerlaw PhoIndex 0.980690 +/- 0.887521E-02 1
5 5 2 powerlaw norm 0.861673 +/- 0.308115E-01 1
6 6 3 gaussian LineE keV 76.9987 +/- 0.209110 2
7 7 3 gaussian Sigma keV 9.92589 +/- 0.207391 2
8 3 3 gaussian norm 0.195621 = par 3 2
9 8 4 powerlaw PhoIndex 0.982904 +/- 0.852281E-02 2
10 5 4 powerlaw norm 0.861673 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 655.3616 using 168 PHA bins.
Reduced chi-squared = 4.096010 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.924) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.924) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.250 photons ( 1.4908E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.240 photons ( 1.4833E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.395 +/- 1.0046E-02
Net count rate (cts/s) for file 2 7.395 +/- 1.0046E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.123 +/- 1.2065E-02( 55.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.123 +/- 1.2065E-02( 55.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.3470346E+07 using 198 PHA bins.
Reduced chi-squared = 70896.55 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 79250.78 using 198 PHA bins.
Reduced chi-squared = 417.1094 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
47251.5 -3 107.8 17.91 0.3919 2.738
0.1027 103.6 17.89 2.676
23474.9 -2 96.89 19.26 1.628 6.606
4.2699E-02 99.97 19.22 7.044
21659.6 -1 99.54 19.32 1.617 1.446
1.2285E-02 101.3 19.31 8.761
19980.5 -1 101.8 19.34 1.575 1.769
3.9654E-03 102.6 19.35 9.325
18378.8 -1 103.8 19.36 1.525 9.236
7.9701E-04 104.0 19.36 9.489
16850.4 0 105.2 19.36 1.451 9.453
2.8701E-04 105.1 19.36 9.495
15337.1 -1 107.3 19.36 1.397 9.480
2.2000E-05 106.9 19.37 9.499
15050.8 -2 108.3 19.36 1.388 -0.3064
6.3918E-06 107.7 19.37 9.500
14200.8 -2 109.4 19.37 1.346 -0.1071
2.6489E-06 108.6 19.37 9.500
13666.1 -2 110.4 19.37 1.308 0.8029
3.0983E-07 109.5 19.37 9.500
13157.3 -1 111.7 19.37 1.250 8.475
1.1018E-07 110.6 19.37 9.500
12756.4 0 113.0 19.37 1.186 9.484
3.3002E-09 111.2 17.57 9.500
12639.1 -1 113.0 19.37 1.200 1.276
1.3201E-09 111.8 18.84 9.500
12373.9 0 113.4 19.37 1.176 7.220
2.7318E-10 111.6 18.40 9.500
12238.4 -1 113.9 19.37 1.141 8.990
1.1032E-10 112.3 18.00 9.500
12209.1 -1 114.3 19.37 1.131 -1.346
4.5802E-11 112.7 18.07 9.500
12196.8 -2 114.5 19.37 1.127 9.245
1.9055E-11 112.9 17.82 9.500
12189.6 0 114.6 19.37 1.122 9.498
4.9278E-12 113.0 17.93 9.500
12188.4 0 114.6 19.37 1.121 9.500
1.1475E-12 113.0 17.93 9.500
12186.6 0 114.6 19.37 1.119 9.504
7.8082E-14 113.0 17.92 9.500
12185.8 0 114.6 19.37 1.119 9.504
1.7017E-14 113.0 17.92 9.500
Fit parameter 5 has pegged
12180.4 0 114.6 19.37 1.114 9.504
0.000 113.1 17.86 9.500
Fit parameter 5 has pegged
12177.0 -1 114.6 19.37 1.108 9.504
0.000 113.2 17.77 9.500
Fit parameter 5 has pegged
12176.0 -2 114.7 19.36 1.104 9.504
0.000 113.3 17.74 9.500
Fit parameter 5 has pegged
12175.9 -3 114.7 19.36 1.104 9.504
0.000 113.4 17.73 9.500
12175.9 4 114.7 19.36 1.104 9.504
0.000 113.4 17.73 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.77E-05 | -0.01 0.00 -1.00 -0.01 0.01
5.06E-03 | 0.01 0.00 0.00 0.47 0.88
1.81E-02 | -0.96 -0.08 0.01 0.24 -0.12
3.68E-02 | 0.27 0.06 -0.02 0.84 -0.46
2.33E+00 | 0.09 -0.99 0.00 0.03 -0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.688 +/- 0.197395 1
2 2 1 gaussian Sigma keV 19.3610 +/- 1.51863 1
3 3 1 gaussian norm 1.10393 +/- 0.608169E-02 1
4 4 2 powerlaw PhoIndex 9.50363 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.375 +/- 0.176741 2
7 7 3 gaussian Sigma keV 17.7308 +/- 0.113244 2
8 3 3 gaussian norm 1.10393 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12175.94 using 198 PHA bins.
Reduced chi-squared = 64.08391 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 61.807) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 61.807) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8565 photons ( 1.6764E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8551 photons ( 1.6474E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.272 +/- 6.6820E-03
Net count rate (cts/s) for file 2 3.272 +/- 6.6820E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 448567.6 using 168 PHA bins.
Reduced chi-squared = 2803.548 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 33457.67 using 168 PHA bins.
Reduced chi-squared = 209.1104 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
13388.0 -3 85.46 14.41 0.1714 1.056
0.8517 85.55 13.90 1.046
2480.54 -4 69.82 16.78 0.2368 0.9361
0.7106 71.87 16.10 0.9433
1202.87 -1 77.84 7.576 0.1964 0.9412
0.7152 77.50 9.094 0.9422
684.650 -2 76.09 9.484 0.1937 0.9505
0.7559 76.94 9.910 0.9521
662.346 -3 75.51 9.349 0.1955 0.9732
0.8279 76.95 9.928 0.9745
655.787 -4 75.56 9.298 0.1954 0.9807
0.8599 77.00 9.919 0.9825
655.365 -5 75.55 9.322 0.1957 0.9807
0.8616 77.00 9.930 0.9829
655.363 -6 75.56 9.313 0.1956 0.9807
0.8617 77.00 9.925 0.9829
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.65E-07 | 0.00 0.00 -0.25 0.67 -0.35 0.00 0.00 0.61
8.16E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.73
6.98E-06 | 0.00 0.01 -0.97 -0.16 0.10 0.00 0.01 -0.17
9.74E-04 | 0.04 0.01 -0.01 -0.27 -0.93 0.04 0.01 -0.25
2.61E-02 | -0.16 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
5.80E-02 | 0.26 -0.54 -0.01 0.00 0.02 0.42 -0.68 0.00
3.65E-02 | 0.94 -0.02 0.00 0.01 0.03 -0.21 0.25 0.01
4.12E-02 | 0.12 0.33 0.00 0.01 0.04 0.88 0.32 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.5555 +/- 0.194103 1
2 2 1 gaussian Sigma keV 9.31315 +/- 0.192906 1
3 3 1 gaussian norm 0.195594 +/- 0.365262E-02 1
4 4 2 powerlaw PhoIndex 0.980690 +/- 0.887595E-02 1
5 5 2 powerlaw norm 0.861691 +/- 0.308125E-01 1
6 6 3 gaussian LineE keV 76.9989 +/- 0.209129 2
7 7 3 gaussian Sigma keV 9.92465 +/- 0.207432 2
8 3 3 gaussian norm 0.195594 = par 3 2
9 8 4 powerlaw PhoIndex 0.982903 +/- 0.852354E-02 2
10 5 4 powerlaw norm 0.861691 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 655.3627 using 168 PHA bins.
Reduced chi-squared = 4.096017 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.924) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.924) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.250 photons ( 1.4908E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.240 photons ( 1.4833E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
133.3444
=====best line=====
75.5545 0.194002
=====best sigma=====
9.31527 0.192794
=====norm=====
0.195621 0.365088E-02
=====phoindx=====
0.980690 0.887521E-02
=====pow_norm=====
0.861673 0.308115E-01
=====best line=====
76.9987 0.209110
=====best sigma=====
9.92589 0.207391
=====norm=====
0.195621 par
=====phoindx=====
0.982904 0.852281E-02
=====pow_norm=====
0.861673 par
=====redu_chi=====
4.096010
=====area_flux=====
1.250
=====area_flux_f=====
1.240
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 2 1 640 2000 1208.872 0 0.195621 0.365088E-02 9.31527 0.192794 0.980690 0.887521E-02 0.861673 0.308115E-01 1.250 640 2000 1231.9792 0 0.195621 0.365088E-02 9.92589 0.207391 0.982904 0.852281E-02 0.861673 0.308115E-01 1.240 4.096010 1
=====redu_chi=====
417.1094
=====best line=====
114.688 0.197395
=====best sigma=====
19.3610 1.51863
=====norm=====
1.10393 0.608169E-02
=====phoindx=====
9.50363 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.375 0.176741
=====best sigma=====
17.7308 0.113244
=====norm=====
1.10393 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
64.08391
=====area_flux=====
0.8565
=====area_flux_f=====
0.8551
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 2 1 1600 3200 1835.008 0 1.10393 0.608169E-02 309.776 24.29808 9.50363 -1.00000 0.00000 -1.00000 0.8565 1600 3200 1814 0 1.10393 0.608169E-02 283.6928 1.811904 9.50000 -1.00000 0.00000 -1.00000 0.8551 64.08391 1
=====redu_chi=====
209.1104
=====best line=====
75.5555 0.194103
=====best sigma=====
9.31315 0.192906
=====norm=====
0.195594 0.365262E-02
=====phoindx=====
0.980690 0.887595E-02
=====pow_norm=====
0.861691 0.308125E-01
=====best line=====
76.9989 0.209129
=====best sigma=====
9.92465 0.207432
=====norm=====
0.195594 par
=====phoindx=====
0.982903 0.852354E-02
=====pow_norm=====
0.861691 par
=====redu_chi=====
4.096017
=====area_flux=====
1.250
=====area_flux_f=====
1.240
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 2 1 640 2000 1208.888 0 0.195594 0.365262E-02 9.31315 0.192906 0.980690 0.887595E-02 0.861691 0.308125E-01 1.250 640 2000 1231.9824 0 0.195594 0.365262E-02 9.92465 0.207432 0.982903 0.852354E-02 0.861691 0.308125E-01 1.240 4.096017 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.529 +/- 5.8744E-03
Net count rate (cts/s) for file 2 2.529 +/- 5.8744E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 648554.9 using 168 PHA bins.
Reduced chi-squared = 4053.468 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18511.73 using 168 PHA bins.
Reduced chi-squared = 115.6983 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
11607.0 -3 82.06 17.14 0.2017 1.108
0.6915 82.30 16.89 1.096
1515.44 -3 70.92 16.76 0.1868 0.8865
0.4323 72.55 15.59 0.8974
920.842 -1 73.13 7.114 0.1595 0.8920
0.4393 74.15 9.416 0.8925
545.962 -2 72.73 8.788 0.1495 0.9133
0.4881 74.74 9.786 0.9136
510.448 -2 72.87 8.938 0.1487 0.9308
0.5283 74.93 9.713 0.9313
490.478 -2 72.98 8.906 0.1483 0.9448
0.5621 75.03 9.686 0.9454
488.248 -3 73.17 8.885 0.1481 0.9836
0.6541 75.27 9.651 0.9832
461.315 -4 73.23 8.924 0.1487 0.9961
0.6991 75.34 9.671 0.9967
459.750 -5 73.25 8.926 0.1487 0.9960
0.7022 75.35 9.673 0.9972
459.748 -6 73.25 8.928 0.1487 0.9959
0.7022 75.35 9.674 0.9972
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.82E-07 | 0.00 0.00 -0.33 0.62 -0.41 0.00 0.00 0.59
1.06E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.43E-06 | 0.00 0.01 -0.94 -0.20 0.15 0.00 0.01 -0.22
8.88E-04 | 0.03 0.00 0.00 -0.31 -0.90 0.03 0.00 -0.30
3.19E-02 | -0.17 -0.80 0.00 0.00 0.00 0.07 0.58 0.00
7.16E-02 | 0.27 -0.51 -0.01 0.01 0.02 0.47 -0.67 0.00
4.36E-02 | -0.95 0.01 0.00 -0.01 -0.02 0.14 -0.28 -0.01
5.05E-02 | -0.02 -0.33 0.00 -0.01 -0.03 -0.87 -0.37 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.2456 +/- 0.212583 1
2 2 1 gaussian Sigma keV 8.92828 +/- 0.210102 1
3 3 1 gaussian norm 0.148724 +/- 0.311893E-02 1
4 4 2 powerlaw PhoIndex 0.995936 +/- 0.998272E-02 1
5 5 2 powerlaw norm 0.702216 +/- 0.284912E-01 1
6 6 3 gaussian LineE keV 75.3473 +/- 0.234267 2
7 7 3 gaussian Sigma keV 9.67356 +/- 0.230714 2
8 3 3 gaussian norm 0.148724 = par 3 2
9 8 4 powerlaw PhoIndex 0.997233 +/- 0.958009E-02 2
10 5 4 powerlaw norm 0.702216 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 459.7478 using 168 PHA bins.
Reduced chi-squared = 2.873424 for 160 degrees of freedom
Null hypothesis probability = 9.005E-31
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.753) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.753) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9542 photons ( 1.1308E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9498 photons ( 1.1304E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:08 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.015 +/- 9.0600E-03
Net count rate (cts/s) for file 2 6.015 +/- 9.0600E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.486 +/- 1.0798E-02( 58.0% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.486 +/- 1.0798E-02( 58.0% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.3995390E+07 using 198 PHA bins.
Reduced chi-squared = 73659.95 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 73844.34 using 198 PHA bins.
Reduced chi-squared = 388.6544 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
38752.4 -3 117.2 19.22 0.3386 2.731
0.1051 112.5 19.22 2.668
35151.5 -1 115.7 19.35 0.8902 9.156
5.0370E-02 118.0 8.451 7.325
34657.7 1 115.7 19.34 0.8877 9.434
1.4814E-02 118.0 8.499 1.948
30732.8 0 115.7 19.31 0.8664 9.475
2.9044E-02 117.8 8.929 1.752
13917.6 0 116.5 19.01 0.8002 9.492
5.8413E-02 117.1 15.60 1.564
12496.2 -1 115.2 19.28 0.9553 9.499
1.9866E-02 114.6 17.77 2.004
12466.3 0 115.2 19.35 0.9533 9.500
9.8750E-03 114.3 17.90 8.065
12455.7 0 115.1 19.35 0.9524 9.500
4.9185E-03 114.3 17.89 9.343
12448.1 0 115.1 19.36 0.9517 9.500
2.1805E-03 114.2 17.88 9.465
12442.0 0 115.1 19.37 0.9511 9.500
6.9858E-04 114.2 17.88 9.483
12437.2 0 115.1 19.37 0.9507 9.500
2.4892E-04 114.2 17.88 9.499
12433.2 0 115.1 19.37 0.9503 9.500
2.0168E-06 114.1 17.88 9.499
12429.9 0 115.1 19.37 0.9500 9.500
4.2649E-08 114.1 17.88 9.500
12424.6 0 115.1 19.37 0.9495 9.500
3.8975E-09 114.0 17.89 9.500
12422.6 0 115.0 19.37 0.9493 9.500
1.9114E-09 114.0 17.89 9.500
12420.8 0 115.0 19.37 0.9492 9.500
9.2054E-10 114.0 17.90 9.500
12417.0 0 115.0 19.37 0.9490 9.500
1.6638E-10 113.9 17.90 9.500
12415.1 0 115.0 19.37 0.9490 9.500
3.7071E-11 113.9 17.90 9.500
12413.6 0 115.0 19.37 0.9490 9.500
4.8350E-12 113.9 17.90 9.500
12412.3 0 115.0 19.37 0.9490 9.500
8.1695E-13 113.8 17.90 9.500
12411.3 0 115.0 19.37 0.9490 9.500
3.1581E-13 113.8 17.90 9.500
12410.3 0 115.0 19.37 0.9491 9.500
6.5648E-14 113.8 17.90 9.500
12409.5 0 115.0 19.37 0.9491 9.500
3.2106E-15 113.8 17.90 9.500
Fit parameter 5 has pegged
12403.1 0 114.8 19.37 0.9503 9.500
0.000 113.6 17.90 9.500
Fit parameter 5 has pegged
12400.0 -1 114.5 19.37 0.9594 9.500
0.000 113.3 18.02 9.500
Fit parameter 5 has pegged
12399.3 0 114.5 19.37 0.9597 9.500
0.000 113.2 18.03 9.500
Fit parameter 5 has pegged
12398.9 0 114.5 19.37 0.9599 9.500
0.000 113.2 18.04 9.500
Fit parameter 5 has pegged
12398.8 0 114.5 19.37 0.9603 9.500
0.000 113.2 18.05 9.500
Fit parameter 5 has pegged
12398.7 0 114.5 19.37 0.9605 9.500
0.000 113.2 18.05 9.500
Fit parameter 5 has pegged
12398.6 0 114.5 19.37 0.9604 9.500
0.000 113.1 18.05 9.500
Fit parameter 5 has pegged
12398.5 0 114.5 19.37 0.9606 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12398.4 0 114.6 19.37 0.9606 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12398.3 0 114.6 19.37 0.9605 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12398.2 0 114.6 19.37 0.9604 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12398.1 0 114.6 19.37 0.9603 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12398.1 0 114.6 19.37 0.9603 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12398.0 0 114.6 19.37 0.9602 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12397.9 0 114.6 19.37 0.9602 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12397.8 0 114.6 19.37 0.9601 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12397.8 0 114.6 19.37 0.9600 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12397.8 0 114.6 19.37 0.9600 9.500
0.000 113.1 18.06 9.500
12397.7 0 114.6 19.37 0.9600 9.500
0.000 113.1 18.07 9.500
Fit parameter 5 has pegged
12397.7 0 114.6 19.37 0.9599 9.500
0.000 113.1 18.07 9.500
Fit parameter 5 has pegged
12397.6 0 114.6 19.37 0.9598 9.500
0.000 113.1 18.07 9.500
Fit parameter 5 has pegged
12397.6 0 114.6 19.37 0.9598 9.500
0.000 113.1 18.07 9.500
12397.5 1 114.6 19.37 0.9598 9.500
0.000 113.1 18.06 9.500
Fit parameter 5 has pegged
12397.5 3 114.6 19.37 0.9598 9.500
0.000 113.1 18.06 9.500
12397.5 3 114.6 19.37 0.9598 9.500
0.000 113.1 18.06 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.45E-05 | -0.01 0.00 -1.00 -0.01 0.01
8.61E-03 | 0.02 0.00 0.00 -0.63 -0.77
2.01E-02 | -0.97 -0.08 0.01 0.15 -0.15
5.06E-02 | 0.21 0.07 -0.01 0.76 -0.62
2.63E+00 | -0.09 0.99 0.00 -0.04 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.639 +/- 0.207453 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.61284 1
3 3 1 gaussian norm 0.959777 +/- 0.563778E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.131 +/- 0.191451 2
7 7 3 gaussian Sigma keV 18.0650 +/- 0.164171 2
8 3 3 gaussian norm 0.959777 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12397.54 using 198 PHA bins.
Reduced chi-squared = 65.25022 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 62.932) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 62.932) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.7439 photons ( 1.4556E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7354 photons ( 1.4182E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:09 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.529 +/- 5.8744E-03
Net count rate (cts/s) for file 2 2.529 +/- 5.8744E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 771287.6 using 168 PHA bins.
Reduced chi-squared = 4820.547 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 28556.57 using 168 PHA bins.
Reduced chi-squared = 178.4786 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
18347.6 -3 85.67 14.91 0.1237 1.120
0.7203 85.51 14.32 1.104
2669.28 -4 66.06 18.51 0.2298 1.042
0.8293 68.51 17.91 1.049
1489.65 0 70.93 16.44 0.2200 1.047
0.8138 72.35 16.88 1.052
835.643 -1 75.15 8.610 0.1665 1.044
0.8295 76.30 8.465 1.045
479.483 -2 73.64 9.397 0.1528 1.031
0.8109 75.66 9.685 1.032
462.543 -3 73.39 8.895 0.1485 1.005
0.7283 75.42 9.673 1.007
459.859 -4 73.24 8.968 0.1491 0.9959
0.7025 75.35 9.691 0.9976
459.757 -5 73.26 8.915 0.1486 0.9960
0.7026 75.35 9.666 0.9973
459.749 -6 73.24 8.934 0.1488 0.9959
0.7021 75.35 9.677 0.9972
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.81E-07 | 0.00 0.00 -0.33 0.62 -0.41 0.00 0.00 0.58
1.06E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.42E-06 | 0.00 0.01 -0.94 -0.20 0.15 0.00 0.01 -0.22
8.88E-04 | 0.03 0.00 -0.01 -0.31 -0.90 0.03 0.00 -0.30
3.18E-02 | -0.17 -0.80 0.00 0.00 0.00 0.07 0.58 0.00
7.14E-02 | 0.27 -0.51 -0.01 0.01 0.02 0.47 -0.67 0.00
4.35E-02 | -0.95 0.01 0.00 -0.01 -0.02 0.14 -0.28 -0.01
5.05E-02 | -0.02 -0.33 0.00 -0.01 -0.03 -0.87 -0.37 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.2423 +/- 0.212325 1
2 2 1 gaussian Sigma keV 8.93405 +/- 0.209820 1
3 3 1 gaussian norm 0.148780 +/- 0.311521E-02 1
4 4 2 powerlaw PhoIndex 0.995900 +/- 0.997819E-02 1
5 5 2 powerlaw norm 0.702081 +/- 0.284914E-01 1
6 6 3 gaussian LineE keV 75.3459 +/- 0.234215 2
7 7 3 gaussian Sigma keV 9.67667 +/- 0.230593 2
8 3 3 gaussian norm 0.148780 = par 3 2
9 8 4 powerlaw PhoIndex 0.997203 +/- 0.957579E-02 2
10 5 4 powerlaw norm 0.702081 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 459.7492 using 168 PHA bins.
Reduced chi-squared = 2.873433 for 160 degrees of freedom
Null hypothesis probability = 9.000E-31
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.753) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.753) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9542 photons ( 1.1308E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9498 photons ( 1.1304E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
115.6983
=====best line=====
73.2456 0.212583
=====best sigma=====
8.92828 0.210102
=====norm=====
0.148724 0.311893E-02
=====phoindx=====
0.995936 0.998272E-02
=====pow_norm=====
0.702216 0.284912E-01
=====best line=====
75.3473 0.234267
=====best sigma=====
9.67356 0.230714
=====norm=====
0.148724 par
=====phoindx=====
0.997233 0.958009E-02
=====pow_norm=====
0.702216 par
=====redu_chi=====
2.873424
=====area_flux=====
0.9542
=====area_flux_f=====
0.9498
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 3 1 640 2000 1171.9296 0 0.148724 0.311893E-02 8.92828 0.210102 0.995936 0.998272E-02 0.702216 0.284912E-01 0.9542 640 2000 1205.5568 0 0.148724 0.311893E-02 9.67356 0.230714 0.997233 0.958009E-02 0.702216 0.284912E-01 0.9498 2.873424 0
=====redu_chi=====
388.6544
=====best line=====
114.639 0.207453
=====best sigma=====
19.3655 1.61284
=====norm=====
0.959777 0.563778E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.131 0.191451
=====best sigma=====
18.0650 0.164171
=====norm=====
0.959777 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
65.25022
=====area_flux=====
0.7439
=====area_flux_f=====
0.7354
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 3 1 1600 3200 1834.224 0 0.959777 0.563778E-02 309.848 25.80544 9.50000 -1.00000 0.00000 -1.00000 0.7439 1600 3200 1810.096 0 0.959777 0.563778E-02 289.04 2.626736 9.50000 -1.00000 0.00000 -1.00000 0.7354 65.25022 1
=====redu_chi=====
178.4786
=====best line=====
73.2423 0.212325
=====best sigma=====
8.93405 0.209820
=====norm=====
0.148780 0.311521E-02
=====phoindx=====
0.995900 0.997819E-02
=====pow_norm=====
0.702081 0.284914E-01
=====best line=====
75.3459 0.234215
=====best sigma=====
9.67667 0.230593
=====norm=====
0.148780 par
=====phoindx=====
0.997203 0.957579E-02
=====pow_norm=====
0.702081 par
=====redu_chi=====
2.873433
=====area_flux=====
0.9542
=====area_flux_f=====
0.9498
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 3 1 640 2000 1171.8768 0 0.148780 0.311521E-02 8.93405 0.209820 0.995900 0.997819E-02 0.702081 0.284914E-01 0.9542 640 2000 1205.5344 0 0.148780 0.311521E-02 9.67667 0.230593 0.997203 0.957579E-02 0.702081 0.284914E-01 0.9498 2.873433 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:09 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.388 +/- 5.7084E-03
Net count rate (cts/s) for file 2 2.388 +/- 5.7084E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 516019.1 using 168 PHA bins.
Reduced chi-squared = 3225.120 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 6577.474 using 168 PHA bins.
Reduced chi-squared = 41.10921 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
787.304 -3 87.58 12.66 0.1359 0.8839
0.4516 88.59 12.15 0.8805
558.578 -4 85.01 11.22 0.1500 0.9290
0.5254 87.38 11.28 0.9274
531.221 -5 85.26 10.92 0.1486 0.9282
0.5344 87.49 11.36 0.9285
530.991 -6 85.17 11.11 0.1503 0.9305
0.5387 87.50 11.44 0.9308
530.911 -7 85.22 11.00 0.1492 0.9288
0.5360 87.51 11.37 0.9293
530.894 -8 85.19 11.07 0.1500 0.9300
0.5379 87.50 11.42 0.9303
530.878 -9 85.21 11.03 0.1495 0.9292
0.5366 87.51 11.38 0.9296
530.876 -10 85.20 11.05 0.1498 0.9297
0.5375 87.51 11.41 0.9301
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.88E-07 | 0.00 0.00 -0.31 0.58 -0.51 0.00 0.00 0.56
1.05E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.87E-06 | 0.00 0.04 -0.95 -0.16 0.20 0.00 0.03 -0.17
6.92E-04 | 0.02 0.25 -0.02 -0.37 -0.80 0.02 0.20 -0.35
1.31E-03 | 0.00 -0.72 -0.01 -0.02 -0.03 0.01 0.69 -0.01
4.24E-03 | 0.01 -0.65 -0.06 -0.13 -0.26 0.01 -0.69 -0.13
8.12E-02 | 0.53 0.00 0.00 0.01 0.03 0.85 0.00 0.01
6.95E-02 | -0.85 0.00 0.00 0.00 -0.01 0.53 -0.01 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 85.1970 +/- 0.269699 1
2 2 1 gaussian Sigma keV 11.0550 +/- 0.499138E-01 1
3 3 1 gaussian norm 0.149790 +/- 0.445023E-02 1
4 4 2 powerlaw PhoIndex 0.929721 +/- 0.137145E-01 1
5 5 2 powerlaw norm 0.537466 +/- 0.282497E-01 1
6 6 3 gaussian LineE keV 87.5052 +/- 0.279063 2
7 7 3 gaussian Sigma keV 11.4085 +/- 0.518122E-01 2
8 3 3 gaussian norm 0.149790 = par 3 2
9 8 4 powerlaw PhoIndex 0.930082 +/- 0.131795E-01 2
10 5 4 powerlaw norm 0.537466 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 530.8763 using 168 PHA bins.
Reduced chi-squared = 3.317977 for 160 degrees of freedom
Null hypothesis probability = 2.604E-41
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.179) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.179) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9670 photons ( 1.1813E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9657 photons ( 1.1851E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:09 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.779 +/- 8.8802E-03
Net count rate (cts/s) for file 2 5.779 +/- 8.8802E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.391 +/- 1.0557E-02( 58.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.391 +/- 1.0557E-02( 58.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 2358089. using 198 PHA bins.
Reduced chi-squared = 12410.99 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 95896.00 using 198 PHA bins.
Reduced chi-squared = 504.7158 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
52481.0 -3 124.6 18.79 0.4476 2.644
0.7369 128.1 18.68 2.866
52160.2 2 124.6 18.79 0.4483 2.187
2.116 128.1 18.67 2.669
50906.9 1 124.7 18.74 0.4546 2.055
3.592 128.2 18.65 2.449
40262.4 0 125.7 18.52 0.5101 1.762
9.067 128.8 18.47 2.173
24915.2 0 127.6 19.27 0.7736 1.753
9.690 129.8 19.21 2.216
21941.1 -1 124.8 19.36 1.260 1.808
6.572 126.7 19.32 2.985
21193.9 0 124.9 19.36 1.228 1.813
6.487 126.8 19.35 8.102
20798.9 0 125.0 19.36 1.207 1.815
6.554 126.9 19.36 9.471
20579.5 0 125.1 19.36 1.195 1.814
6.730 127.0 19.36 9.489
20451.3 0 125.2 19.37 1.188 1.814
6.856 127.1 19.37 9.499
20363.0 0 125.3 19.37 1.183 1.816
6.967 127.2 19.37 9.500
20304.1 0 125.3 19.37 1.180 1.818
7.040 127.2 19.37 9.500
20262.5 0 125.4 19.37 1.177 1.820
7.138 127.3 19.37 9.500
20241.3 0 125.5 19.37 1.177 1.822
7.224 127.3 19.37 9.500
20213.5 0 125.5 19.37 1.175 1.824
7.326 127.4 19.37 9.500
20196.9 0 125.6 19.37 1.174 1.826
7.426 127.4 19.37 9.500
20183.4 0 125.6 19.37 1.174 1.828
7.511 127.4 19.37 9.500
20175.9 0 125.6 19.37 1.174 1.831
7.569 127.5 19.37 9.500
20165.5 0 125.6 19.37 1.173 1.832
7.703 127.5 19.37 9.500
20162.1 0 125.7 19.37 1.173 1.834
7.798 127.5 19.37 9.500
20160.5 0 125.7 19.37 1.173 1.838
7.848 127.5 19.37 9.500
20152.4 0 125.7 19.37 1.173 1.841
7.930 127.5 19.37 9.500
20065.8 0 125.8 19.37 1.166 1.841
7.934 127.5 19.37 9.500
19990.1 0 125.8 19.37 1.160 1.841
7.947 127.6 19.37 9.500
19923.6 0 125.9 19.37 1.155 1.840
7.967 127.7 19.37 9.500
19865.3 0 126.0 19.37 1.150 1.840
7.993 127.7 19.37 9.500
19813.5 0 126.0 19.37 1.145 1.840
8.020 127.8 19.37 9.500
19767.6 0 126.1 19.37 1.141 1.839
8.051 127.8 19.37 9.500
19690.1 0 126.2 19.37 1.133 1.838
8.118 127.9 19.37 9.500
19657.2 0 126.3 19.37 1.130 1.838
8.151 127.9 19.37 9.500
19627.8 0 126.3 19.37 1.127 1.837
8.184 128.0 19.37 9.500
19601.4 0 126.4 19.37 1.124 1.837
8.217 128.0 19.37 9.500
19577.5 0 126.5 19.37 1.121 1.836
8.250 128.1 19.37 9.500
19555.9 0 126.5 19.37 1.118 1.836
8.283 128.1 19.37 9.500
19536.3 0 126.6 19.37 1.116 1.836
8.313 128.1 19.37 9.500
19518.7 0 126.6 19.37 1.114 1.835
8.345 128.2 19.37 9.500
19502.6 0 126.7 19.37 1.112 1.835
8.374 128.2 19.37 9.500
19487.9 0 126.7 19.37 1.110 1.835
8.403 128.2 19.37 9.500
19474.6 0 126.8 19.37 1.108 1.834
8.430 128.3 19.37 9.500
19462.4 0 126.8 19.37 1.107 1.834
8.455 128.3 19.37 9.500
19451.2 0 126.8 19.37 1.105 1.834
8.482 128.3 19.37 9.500
19441.0 0 126.9 19.37 1.104 1.834
8.507 128.4 19.37 9.500
19431.7 0 126.9 19.37 1.102 1.834
8.531 128.4 19.37 9.500
19423.2 0 127.0 19.37 1.101 1.834
8.553 128.4 19.37 9.500
19415.4 0 127.0 19.37 1.100 1.833
8.574 128.4 19.37 9.500
19408.2 0 127.0 19.37 1.099 1.833
8.596 128.5 19.37 9.500
19401.7 0 127.1 19.37 1.098 1.833
8.616 128.5 19.37 9.500
19395.5 0 127.1 19.37 1.097 1.833
8.634 128.5 19.37 9.500
19390.0 0 127.2 19.37 1.096 1.833
8.655 128.5 19.37 9.500
19384.7 0 127.2 19.37 1.095 1.833
8.672 128.6 19.37 9.500
19379.9 0 127.2 19.37 1.094 1.833
8.689 128.6 19.37 9.500
19375.5 0 127.2 19.37 1.093 1.834
8.706 128.6 19.37 9.500
19371.4 0 127.3 19.37 1.093 1.834
8.723 128.6 19.37 9.500
19367.5 0 127.3 19.37 1.092 1.834
8.740 128.6 19.37 9.500
19364.0 0 127.3 19.37 1.092 1.834
8.756 128.6 19.37 9.500
19360.7 0 127.4 19.37 1.091 1.834
8.773 128.7 19.37 9.500
19357.7 0 127.4 19.37 1.090 1.834
8.788 128.7 19.37 9.500
19354.8 0 127.4 19.37 1.090 1.834
8.802 128.7 19.37 9.500
19352.2 0 127.4 19.37 1.089 1.834
8.816 128.7 19.37 9.500
19349.7 0 127.4 19.37 1.089 1.834
8.830 128.7 19.37 9.500
19347.5 0 127.5 19.37 1.088 1.835
8.844 128.7 19.37 9.500
19345.3 0 127.5 19.37 1.088 1.835
8.858 128.7 19.37 9.500
19343.4 0 127.5 19.37 1.088 1.835
8.872 128.7 19.37 9.500
19341.5 0 127.5 19.37 1.087 1.835
8.885 128.8 19.37 9.500
19339.8 0 127.5 19.37 1.087 1.835
8.899 128.8 19.37 9.500
19338.2 0 127.6 19.37 1.087 1.835
8.913 128.8 19.37 9.500
19336.6 0 127.6 19.37 1.086 1.836
8.927 128.8 19.37 9.500
19335.2 0 127.6 19.37 1.086 1.836
8.940 128.8 19.37 9.500
19333.9 0 127.6 19.37 1.086 1.836
8.952 128.8 19.37 9.500
19332.6 0 127.6 19.37 1.086 1.836
8.964 128.8 19.37 9.500
19331.4 0 127.6 19.37 1.085 1.836
8.978 128.8 19.37 9.500
19330.3 0 127.7 19.37 1.085 1.837
8.990 128.8 19.37 9.500
19329.2 0 127.7 19.37 1.085 1.837
9.002 128.8 19.37 9.500
19328.2 0 127.7 19.37 1.085 1.837
9.014 128.8 19.37 9.500
19327.3 0 127.7 19.37 1.084 1.837
9.026 128.8 19.37 9.500
19326.5 0 127.7 19.37 1.084 1.838
9.041 128.8 19.37 9.500
19325.6 0 127.7 19.37 1.084 1.838
9.055 128.9 19.37 9.500
19324.8 0 127.7 19.37 1.084 1.838
9.067 128.9 19.37 9.500
19324.1 0 127.7 19.37 1.084 1.838
9.079 128.9 19.37 9.500
19323.4 0 127.7 19.37 1.084 1.838
9.091 128.9 19.37 9.500
19322.7 0 127.8 19.37 1.084 1.839
9.102 128.9 19.37 9.500
19322.1 0 127.8 19.37 1.083 1.839
9.115 128.9 19.37 9.500
19321.5 0 127.8 19.37 1.083 1.839
9.127 128.9 19.37 9.500
19321.0 0 127.8 19.37 1.083 1.839
9.139 128.9 19.37 9.500
19320.4 0 127.8 19.37 1.083 1.840
9.150 128.9 19.37 9.500
19319.8 0 127.8 19.37 1.083 1.840
9.163 128.9 19.37 9.500
19319.3 0 127.8 19.37 1.083 1.840
9.176 128.9 19.37 9.500
19318.9 0 127.8 19.37 1.083 1.840
9.188 128.9 19.37 9.500
19318.4 0 127.8 19.37 1.083 1.841
9.199 128.9 19.37 9.500
19318.0 0 127.8 19.37 1.083 1.841
9.212 128.9 19.37 9.500
19317.6 0 127.8 19.37 1.082 1.841
9.225 128.9 19.37 9.500
19317.2 0 127.8 19.37 1.082 1.841
9.238 128.9 19.37 9.500
19316.8 0 127.8 19.37 1.082 1.841
9.249 128.9 19.37 9.500
19316.4 0 127.8 19.37 1.082 1.842
9.261 128.9 19.37 9.500
19316.2 0 127.9 19.37 1.082 1.842
9.275 128.9 19.37 9.500
19315.8 0 127.9 19.37 1.082 1.842
9.286 128.9 19.37 9.500
19315.5 0 127.9 19.37 1.082 1.842
9.299 128.9 19.37 9.500
19315.2 0 127.9 19.37 1.082 1.843
9.312 128.9 19.37 9.500
19314.9 0 127.9 19.37 1.082 1.843
9.323 128.9 19.37 9.500
19314.6 0 127.9 19.37 1.082 1.843
9.335 128.9 19.37 9.500
19314.4 0 127.9 19.37 1.082 1.843
9.348 128.9 19.37 9.500
19314.1 0 127.9 19.37 1.082 1.844
9.359 128.9 19.37 9.500
19313.9 0 127.9 19.37 1.082 1.844
9.373 128.9 19.37 9.500
19313.6 0 127.9 19.37 1.082 1.844
9.386 128.9 19.37 9.500
19313.3 0 127.9 19.37 1.082 1.844
9.398 128.9 19.37 9.500
19313.1 0 127.9 19.37 1.082 1.845
9.409 128.9 19.37 9.500
19312.8 0 127.9 19.37 1.082 1.845
9.420 128.9 19.37 9.500
19312.7 0 127.9 19.37 1.082 1.845
9.432 128.9 19.37 9.500
19312.5 0 127.9 19.37 1.081 1.845
9.447 128.9 19.37 9.500
19312.2 0 127.9 19.37 1.081 1.846
9.459 128.9 19.37 9.500
19312.1 0 127.9 19.37 1.081 1.846
9.472 128.9 19.37 9.500
19311.8 0 127.9 19.37 1.081 1.846
9.484 128.9 19.37 9.500
19311.7 0 127.9 19.37 1.081 1.846
9.497 128.9 19.37 9.500
19311.4 0 127.9 19.37 1.081 1.847
9.511 128.9 19.37 9.500
19311.3 0 127.9 19.37 1.081 1.847
9.523 128.9 19.37 9.500
19311.1 0 127.9 19.37 1.081 1.847
9.537 128.9 19.37 9.500
19311.0 0 127.9 19.37 1.081 1.847
9.549 128.9 19.37 9.500
19310.7 0 127.9 19.37 1.081 1.848
9.561 128.9 19.37 9.500
19310.6 0 127.9 19.37 1.081 1.848
9.575 128.9 19.37 9.500
19310.5 0 127.9 19.37 1.081 1.848
9.588 128.9 19.37 9.500
19310.3 0 127.9 19.37 1.081 1.848
9.602 128.9 19.37 9.500
19310.2 0 127.9 19.37 1.081 1.848
9.615 128.9 19.37 9.500
19310.0 0 127.9 19.37 1.081 1.849
9.627 128.9 19.37 9.500
19309.9 0 127.9 19.37 1.081 1.849
9.638 128.9 19.37 9.500
19309.7 0 127.9 19.37 1.081 1.849
9.652 128.9 19.37 9.500
19309.6 0 127.9 19.37 1.081 1.850
9.664 128.9 19.37 9.500
19309.4 0 127.9 19.37 1.081 1.850
9.676 128.9 19.37 9.500
19309.3 0 127.9 19.37 1.081 1.850
9.688 128.9 19.37 9.500
19309.1 0 127.9 19.37 1.081 1.850
9.701 128.9 19.37 9.500
19309.1 0 127.9 19.37 1.081 1.851
9.713 128.9 19.37 9.500
19308.9 0 127.9 19.37 1.081 1.851
9.726 128.9 19.37 9.500
19308.8 0 128.0 19.37 1.081 1.851
9.738 128.9 19.37 9.500
19308.6 0 128.0 19.37 1.081 1.851
9.750 128.9 19.37 9.500
19308.5 0 128.0 19.37 1.081 1.852
9.765 128.9 19.37 9.500
19308.4 0 128.0 19.37 1.081 1.852
9.777 128.9 19.37 9.500
19308.2 0 128.0 19.37 1.081 1.852
9.792 128.9 19.37 9.500
19308.1 0 128.0 19.37 1.081 1.852
9.805 128.9 19.37 9.500
19308.0 0 128.0 19.37 1.081 1.853
9.817 128.9 19.37 9.500
19307.9 0 128.0 19.37 1.081 1.853
9.829 128.9 19.37 9.500
19307.7 0 128.0 19.37 1.081 1.853
9.842 128.9 19.37 9.500
19307.6 0 128.0 19.37 1.081 1.853
9.854 128.9 19.37 9.500
19307.6 0 128.0 19.37 1.081 1.854
9.867 129.0 19.37 9.500
19307.4 0 128.0 19.37 1.081 1.854
9.879 129.0 19.37 9.500
19307.3 0 128.0 19.37 1.081 1.854
9.892 129.0 19.37 9.500
19307.2 0 128.0 19.37 1.081 1.854
9.905 129.0 19.37 9.500
19307.1 0 128.0 19.37 1.081 1.855
9.919 129.0 19.37 9.500
19307.0 0 128.0 19.37 1.081 1.855
9.933 129.0 19.37 9.500
19306.9 0 128.0 19.37 1.081 1.855
9.948 129.0 19.37 9.500
19306.7 0 128.0 19.37 1.081 1.855
9.960 129.0 19.37 9.500
19306.7 0 128.0 19.37 1.081 1.856
9.974 129.0 19.37 9.500
19306.5 0 128.0 19.37 1.081 1.856
9.987 129.0 19.37 9.500
19306.5 0 128.0 19.37 1.081 1.856
10.000 129.0 19.37 9.500
19306.4 0 128.0 19.37 1.081 1.856
10.01 129.0 19.37 9.500
19306.2 0 128.0 19.37 1.081 1.857
10.03 129.0 19.37 9.500
19306.1 0 128.0 19.37 1.081 1.857
10.04 129.0 19.37 9.500
19306.0 0 128.0 19.37 1.081 1.857
10.05 129.0 19.37 9.500
19306.0 0 128.0 19.37 1.081 1.857
10.07 129.0 19.37 9.500
19305.9 0 128.0 19.37 1.081 1.858
10.08 129.0 19.37 9.500
19305.7 0 128.0 19.37 1.081 1.858
10.09 129.0 19.37 9.500
19305.7 0 128.0 19.37 1.081 1.858
10.11 129.0 19.37 9.500
19305.6 0 128.0 19.37 1.081 1.858
10.12 129.0 19.37 9.500
19305.4 0 128.0 19.37 1.081 1.859
10.13 129.0 19.37 9.500
19305.3 0 128.0 19.37 1.081 1.859
10.15 129.0 19.37 9.500
19305.2 0 128.0 19.37 1.081 1.859
10.16 129.0 19.37 9.500
19305.1 0 128.0 19.37 1.081 1.859
10.18 129.0 19.37 9.500
19305.1 0 128.0 19.37 1.081 1.860
10.19 129.0 19.37 9.500
19305.0 0 128.0 19.37 1.081 1.860
10.20 129.0 19.37 9.500
19304.9 0 128.0 19.37 1.081 1.860
10.21 129.0 19.37 9.500
19304.8 0 128.0 19.37 1.081 1.860
10.23 129.0 19.37 9.500
19304.7 0 128.0 19.37 1.081 1.861
10.24 129.0 19.37 9.500
19304.5 0 128.0 19.37 1.081 1.861
10.26 129.0 19.37 9.500
19304.5 0 128.0 19.37 1.081 1.861
10.27 129.0 19.37 9.500
19304.3 0 128.0 19.37 1.081 1.861
10.28 129.0 19.37 9.500
19304.3 0 128.0 19.37 1.081 1.861
10.30 129.0 19.37 9.500
19304.2 0 128.0 19.37 1.081 1.862
10.31 129.0 19.37 9.500
19304.1 0 128.0 19.37 1.081 1.862
10.32 129.0 19.37 9.500
19304.0 0 128.0 19.37 1.080 1.862
10.34 129.0 19.37 9.500
19303.9 0 128.0 19.37 1.080 1.862
10.35 129.0 19.37 9.500
19303.8 0 128.0 19.37 1.080 1.863
10.37 129.0 19.37 9.500
19303.7 0 128.0 19.37 1.080 1.863
10.38 129.0 19.37 9.500
19303.6 0 128.0 19.37 1.080 1.863
10.39 129.0 19.37 9.500
19303.5 0 128.0 19.37 1.080 1.863
10.41 129.0 19.37 9.500
19303.4 0 128.0 19.37 1.080 1.864
10.42 129.0 19.37 9.500
19303.3 0 128.0 19.37 1.080 1.864
10.44 129.0 19.37 9.500
19303.2 0 128.0 19.37 1.080 1.864
10.45 129.0 19.37 9.500
19303.1 0 128.0 19.37 1.080 1.864
10.47 129.0 19.37 9.500
19303.1 0 128.0 19.37 1.080 1.865
10.48 129.0 19.37 9.500
19303.0 0 128.0 19.37 1.080 1.865
10.49 129.0 19.37 9.500
19302.9 0 128.0 19.37 1.080 1.865
10.51 129.0 19.37 9.500
19302.8 0 128.0 19.37 1.080 1.865
10.52 129.0 19.37 9.500
19302.7 0 128.0 19.37 1.080 1.866
10.53 129.0 19.37 9.500
19302.6 0 128.0 19.37 1.080 1.866
10.55 129.0 19.37 9.500
19302.5 0 128.0 19.37 1.080 1.866
10.56 129.0 19.37 9.500
19302.4 0 128.0 19.37 1.080 1.866
10.58 129.0 19.37 9.500
19302.3 0 128.0 19.37 1.080 1.867
10.59 129.0 19.37 9.500
19302.2 0 128.0 19.37 1.080 1.867
10.61 129.0 19.37 9.500
19302.2 0 128.0 19.37 1.080 1.867
10.62 129.0 19.37 9.500
19302.1 0 128.0 19.37 1.080 1.867
10.64 129.0 19.37 9.500
19302.0 0 128.0 19.37 1.080 1.868
10.65 129.0 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.31E-05 | 0.00 0.00 -0.95 0.30 -0.01 0.00 0.00
3.76E-05 | 0.00 0.00 -0.30 -0.95 0.02 0.00 0.00
1.87E-02 | 1.00 0.02 0.00 0.00 -0.01 0.08 0.01
1.59E-02 | 0.08 0.00 0.00 0.00 0.00 -1.00 -0.04
2.21E+00 | 0.00 0.29 0.00 0.00 -0.04 0.04 -0.95
4.70E+00 | 0.02 -0.96 0.00 0.00 -0.01 0.02 -0.29
1.18E+02 | 0.01 0.00 0.00 0.02 1.00 0.00 -0.04
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 127.984 +/- 0.156061 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.11722 1
3 3 1 gaussian norm 1.08038 +/- 0.604546E-02 1
4 4 2 powerlaw PhoIndex 1.86758 +/- 0.205893 1
5 5 2 powerlaw norm 10.6515 +/- 10.8472 1
6 6 3 gaussian LineE keV 128.956 +/- 0.144034 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.61835 2
8 3 3 gaussian norm 1.08038 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 10.6515 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 19301.98 using 198 PHA bins.
Reduced chi-squared = 101.5894 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 97.980) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 97.980) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.101 photons ( 2.3228E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.007 photons ( 2.1247E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:10 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.388 +/- 5.7084E-03
Net count rate (cts/s) for file 2 2.388 +/- 5.7084E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 579110.6 using 168 PHA bins.
Reduced chi-squared = 3619.441 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13034.19 using 168 PHA bins.
Reduced chi-squared = 81.46368 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1551.48 -3 88.16 12.15 0.1577 0.9606
0.5433 89.01 11.69 0.9541
552.394 -4 85.40 12.36 0.1613 0.9576
0.5949 87.61 12.10 0.9574
549.057 -5 85.60 10.36 0.1423 0.9192
0.5168 87.63 10.89 0.9209
535.691 -6 85.02 11.45 0.1538 0.9363
0.5478 87.44 11.70 0.9361
532.921 -7 85.34 10.77 0.1464 0.9248
0.5290 87.56 11.17 0.9255
531.716 -8 85.12 11.21 0.1515 0.9324
0.5418 87.47 11.54 0.9325
531.219 -9 85.26 10.93 0.1483 0.9275
0.5337 87.53 11.30 0.9280
531.032 -10 85.17 11.12 0.1505 0.9308
0.5392 87.49 11.46 0.9311
530.930 -11 85.23 10.99 0.1491 0.9287
0.5357 87.52 11.36 0.9291
530.903 -12 85.19 11.08 0.1500 0.9301
0.5380 87.50 11.43 0.9304
530.881 -13 85.21 11.02 0.1494 0.9292
0.5365 87.51 11.38 0.9296
530.878 -14 85.20 11.06 0.1498 0.9298
0.5375 87.50 11.41 0.9301
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.88E-07 | 0.00 0.00 -0.31 0.58 -0.51 0.00 0.00 0.56
1.05E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.87E-06 | 0.00 0.04 -0.95 -0.16 0.20 0.00 0.03 -0.17
6.91E-04 | 0.02 0.25 -0.02 -0.37 -0.80 0.02 0.20 -0.35
1.30E-03 | 0.00 -0.72 -0.01 -0.02 -0.03 0.01 0.69 -0.01
4.23E-03 | 0.01 -0.65 -0.06 -0.13 -0.26 0.01 -0.69 -0.13
8.12E-02 | -0.53 0.00 0.00 -0.01 -0.03 -0.85 0.00 -0.01
6.95E-02 | 0.85 0.00 0.00 0.00 0.01 -0.53 0.01 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 85.1961 +/- 0.269668 1
2 2 1 gaussian Sigma keV 11.0572 +/- 0.498874E-01 1
3 3 1 gaussian norm 0.149816 +/- 0.444779E-02 1
4 4 2 powerlaw PhoIndex 0.929763 +/- 0.137101E-01 1
5 5 2 powerlaw norm 0.537536 +/- 0.282362E-01 1
6 6 3 gaussian LineE keV 87.5050 +/- 0.279045 2
7 7 3 gaussian Sigma keV 11.4104 +/- 0.517847E-01 2
8 3 3 gaussian norm 0.149816 = par 3 2
9 8 4 powerlaw PhoIndex 0.930120 +/- 0.131753E-01 2
10 5 4 powerlaw norm 0.537536 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 530.8778 using 168 PHA bins.
Reduced chi-squared = 3.317986 for 160 degrees of freedom
Null hypothesis probability = 2.602E-41
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.179) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.179) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9670 photons ( 1.1812E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9657 photons ( 1.1851E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
41.10921
=====best line=====
85.1970 0.269699
=====best sigma=====
11.0550 0.499138E-01
=====norm=====
0.149790 0.445023E-02
=====phoindx=====
0.929721 0.137145E-01
=====pow_norm=====
0.537466 0.282497E-01
=====best line=====
87.5052 0.279063
=====best sigma=====
11.4085 0.518122E-01
=====norm=====
0.149790 par
=====phoindx=====
0.930082 0.131795E-01
=====pow_norm=====
0.537466 par
=====redu_chi=====
3.317977
=====area_flux=====
0.9670
=====area_flux_f=====
0.9657
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 4 1 640 2000 1363.152 0 0.149790 0.445023E-02 11.0550 0.499138E-01 0.929721 0.137145E-01 0.537466 0.282497E-01 0.9670 640 2000 1400.0832 0 0.149790 0.445023E-02 11.4085 0.518122E-01 0.930082 0.131795E-01 0.537466 0.282497E-01 0.9657 3.317977 1
=====redu_chi=====
504.7158
=====best line=====
127.984 0.156061
=====best sigma=====
19.3655 2.11722
=====norm=====
1.08038 0.604546E-02
=====phoindx=====
1.86758 0.205893
=====pow_norm=====
10.6515 10.8472
=====best line=====
128.956 0.144034
=====best sigma=====
19.3655 1.61835
=====norm=====
1.08038 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
10.6515 par
=====redu_chi=====
101.5894
=====area_flux=====
1.101
=====area_flux_f=====
1.007
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 4 1 1600 3200 2047.744 0 1.08038 0.604546E-02 309.848 33.87552 1.86758 0.205893 10.6515 10.8472 1.101 1600 3200 2063.296 0 1.08038 0.604546E-02 309.848 25.8936 9.50000 -1.00000 10.6515 10.8472 1.007 101.5894 1
=====redu_chi=====
81.46368
=====best line=====
85.1961 0.269668
=====best sigma=====
11.0572 0.498874E-01
=====norm=====
0.149816 0.444779E-02
=====phoindx=====
0.929763 0.137101E-01
=====pow_norm=====
0.537536 0.282362E-01
=====best line=====
87.5050 0.279045
=====best sigma=====
11.4104 0.517847E-01
=====norm=====
0.149816 par
=====phoindx=====
0.930120 0.131753E-01
=====pow_norm=====
0.537536 par
=====redu_chi=====
3.317986
=====area_flux=====
0.9670
=====area_flux_f=====
0.9657
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 4 1 640 2000 1363.1376 0 0.149816 0.444779E-02 11.0572 0.498874E-01 0.929763 0.137101E-01 0.537536 0.282362E-01 0.9670 640 2000 1400.08 0 0.149816 0.444779E-02 11.4104 0.517847E-01 0.930120 0.131753E-01 0.537536 0.282362E-01 0.9657 3.317986 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:10 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.429 +/- 5.7572E-03
Net count rate (cts/s) for file 2 2.429 +/- 5.7572E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 667707.9 using 168 PHA bins.
Reduced chi-squared = 4173.174 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15749.62 using 168 PHA bins.
Reduced chi-squared = 98.43510 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7812.86 -3 82.72 16.30 0.1786 1.065
0.6270 82.45 16.36 1.056
4771.17 -4 75.22 7.542 8.0722E-02 0.7917
0.2589 74.33 7.418 0.8045
1931.40 -2 75.96 13.66 0.1398 0.8425
0.3364 76.35 16.19 0.8404
1661.67 -2 76.88 8.685 8.8267E-02 0.8669
0.4063 75.29 5.233 0.8681
1293.52 -3 76.76 8.814 0.1233 0.9750
0.5793 76.21 8.785 0.9718
783.746 -4 76.87 9.729 0.1461 1.035
0.7577 77.10 10.39 1.034
591.651 -5 77.11 9.351 0.1428 1.035
0.7991 77.22 9.918 1.037
587.926 -6 77.01 9.539 0.1450 1.035
0.7973 77.16 9.677 1.037
587.830 -7 77.05 9.492 0.1449 1.035
0.7982 77.16 9.715 1.037
587.825 -8 77.04 9.508 0.1450 1.035
0.7980 77.16 9.713 1.037
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.40E-07 | 0.00 0.00 -0.36 0.63 -0.37 0.00 0.00 0.59
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.32E-06 | 0.00 0.01 -0.93 -0.23 0.15 0.00 0.01 -0.23
1.18E-03 | 0.04 0.01 -0.01 -0.28 -0.92 0.04 0.01 -0.27
3.48E-02 | -0.14 -0.72 0.00 0.00 0.00 0.12 0.66 0.00
7.52E-02 | 0.29 -0.60 -0.01 0.00 0.01 0.36 -0.66 0.00
4.97E-02 | 0.90 -0.03 0.00 0.01 0.02 -0.36 0.23 0.01
5.27E-02 | 0.28 0.34 0.00 0.01 0.04 0.85 0.28 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0368 +/- 0.227449 1
2 2 1 gaussian Sigma keV 9.50756 +/- 0.226565 1
3 3 1 gaussian norm 0.145032 +/- 0.311173E-02 1
4 4 2 powerlaw PhoIndex 1.03496 +/- 0.104585E-01 1
5 5 2 powerlaw norm 0.798028 +/- 0.334016E-01 1
6 6 3 gaussian LineE keV 77.1573 +/- 0.234304 2
7 7 3 gaussian Sigma keV 9.71287 +/- 0.233084 2
8 3 3 gaussian norm 0.145032 = par 3 2
9 8 4 powerlaw PhoIndex 1.03694 +/- 0.100349E-01 2
10 5 4 powerlaw norm 0.798028 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 587.8246 using 168 PHA bins.
Reduced chi-squared = 3.673904 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.520) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.520) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9205 photons ( 1.0959E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9140 photons ( 1.0883E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:10 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.735 +/- 8.8467E-03
Net count rate (cts/s) for file 2 5.735 +/- 8.8467E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.306 +/- 1.0555E-02( 57.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.306 +/- 1.0555E-02( 57.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.3346586E+07 using 198 PHA bins.
Reduced chi-squared = 70245.19 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 80478.21 using 198 PHA bins.
Reduced chi-squared = 423.5695 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
43020.9 -3 115.7 19.22 0.3601 2.740
0.1148 110.1 19.21 2.692
15797.8 -2 114.5 19.33 1.089 7.288
2.5985E-02 114.2 19.06 9.436
13598.8 -3 115.3 19.37 1.055 2.003
8.4583E-03 112.5 17.63 9.484
13553.0 -1 115.8 19.37 1.057 6.567
2.1357E-03 112.3 18.48 9.498
13544.0 -1 115.8 19.37 1.046 9.489
1.0720E-04 112.3 18.60 9.500
13432.4 0 116.1 19.37 1.036 9.499
4.3952E-05 112.2 18.49 9.500
13389.9 0 116.4 19.37 1.028 9.500
1.2196E-05 112.3 18.43 9.500
13367.5 0 116.6 19.37 1.023 9.500
4.2385E-06 112.4 18.39 9.500
13353.2 0 116.7 19.37 1.019 9.500
2.6859E-07 112.5 18.35 9.500
13343.9 0 116.8 19.37 1.016 9.500
2.0340E-08 112.6 18.32 9.500
13303.2 0 116.9 19.37 1.008 9.500
1.0149E-09 112.8 18.18 9.500
13299.2 0 116.9 19.37 1.006 9.500
3.2570E-10 112.8 18.15 9.500
13296.2 0 116.9 19.37 1.005 9.500
1.5344E-10 112.9 18.13 9.500
13293.6 0 116.9 19.37 1.004 9.500
6.7620E-11 112.9 18.11 9.500
13291.4 0 116.9 19.37 1.003 9.500
2.4705E-11 113.0 18.09 9.500
13290.0 0 116.9 19.37 1.002 9.500
3.2651E-12 113.0 18.08 9.500
13288.9 0 116.9 19.37 1.002 9.500
5.8511E-13 113.1 18.07 9.500
13288.1 0 116.9 19.37 1.001 9.500
2.5027E-13 113.1 18.06 9.500
Fit parameter 5 has pegged
13261.7 -1 116.7 19.37 0.9953 9.500
0.000 113.1 17.61 9.500
Fit parameter 5 has pegged
13256.2 -1 116.6 19.37 0.9964 9.500
0.000 113.1 17.79 9.500
Fit parameter 5 has pegged
13255.1 -1 116.6 19.37 0.9958 9.500
0.000 113.1 17.74 9.500
Fit parameter 5 has pegged
13251.5 0 116.7 19.37 0.9946 9.500
0.000 113.2 17.74 9.500
Fit parameter 5 has pegged
13249.7 0 116.7 19.37 0.9937 9.500
0.000 113.2 17.74 9.500
Fit parameter 5 has pegged
13248.4 0 116.8 19.37 0.9930 9.500
0.000 113.2 17.74 9.500
Fit parameter 5 has pegged
13247.7 0 116.8 19.37 0.9924 9.500
0.000 113.2 17.73 9.500
Fit parameter 5 has pegged
13247.2 0 116.8 19.37 0.9920 9.500
0.000 113.2 17.73 9.500
Fit parameter 5 has pegged
13246.8 0 116.8 19.37 0.9916 9.500
0.000 113.2 17.73 9.500
Fit parameter 5 has pegged
13246.4 0 116.8 19.37 0.9913 9.500
0.000 113.2 17.72 9.500
Fit parameter 5 has pegged
13246.2 0 116.8 19.37 0.9910 9.500
0.000 113.2 17.72 9.500
Fit parameter 5 has pegged
13246.0 0 116.8 19.37 0.9908 9.500
0.000 113.2 17.72 9.500
Fit parameter 5 has pegged
13245.7 0 116.9 19.37 0.9906 9.500
0.000 113.2 17.72 9.500
Fit parameter 5 has pegged
13245.6 0 116.9 19.37 0.9905 9.500
0.000 113.2 17.72 9.500
Fit parameter 5 has pegged
13245.5 0 116.9 19.37 0.9904 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13245.5 0 116.9 19.37 0.9902 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13245.3 0 116.9 19.37 0.9901 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13245.2 0 116.9 19.37 0.9900 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13245.0 0 116.9 19.37 0.9899 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13244.9 0 116.9 19.37 0.9898 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13244.8 0 116.9 19.37 0.9897 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13244.7 0 116.9 19.37 0.9896 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13244.6 0 116.9 19.37 0.9895 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13244.5 0 116.9 19.37 0.9894 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13244.5 3 116.9 19.37 0.9894 9.500
0.000 113.3 17.71 9.500
13244.4 0 116.9 19.37 0.9893 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13244.3 0 116.9 19.37 0.9892 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13244.3 3 116.9 19.37 0.9892 9.500
0.000 113.3 17.71 9.500
13244.3 4 116.9 19.37 0.9892 9.500
0.000 113.3 17.71 9.500
Fit parameter 5 has pegged
13244.3 5 116.9 19.37 0.9892 9.500
0.000 113.3 17.71 9.500
13244.3 5 116.9 19.37 0.9892 9.500
0.000 113.3 17.71 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.41E-05 | -0.01 0.00 -1.00 -0.01 0.01
4.74E-03 | 0.01 0.00 0.00 0.46 0.89
1.80E-02 | -0.97 -0.07 0.00 0.22 -0.11
3.62E-02 | 0.24 0.06 -0.01 0.86 -0.45
2.47E+00 | 0.08 -1.00 0.00 0.03 -0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.944 +/- 0.188397 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.56552 1
3 3 1 gaussian norm 0.989224 +/- 0.528661E-02 1
4 4 2 powerlaw PhoIndex 9.50001 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.277 +/- 0.176018 2
7 7 3 gaussian Sigma keV 17.7119 +/- 0.109890 2
8 3 3 gaussian norm 0.989224 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13244.30 using 198 PHA bins.
Reduced chi-squared = 69.70685 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 67.230) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 67.230) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8004 photons ( 1.5832E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7648 photons ( 1.4727E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:11 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.429 +/- 5.7572E-03
Net count rate (cts/s) for file 2 2.429 +/- 5.7572E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 775651.7 using 168 PHA bins.
Reduced chi-squared = 4847.823 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 24301.69 using 168 PHA bins.
Reduced chi-squared = 151.8855 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
16286.4 -3 85.62 14.10 0.1314 1.120
0.6980 85.40 13.99 1.107
2953.57 -4 72.97 15.90 0.1737 0.9779
0.6798 72.32 15.66 0.9874
1881.12 -2 81.09 6.619 6.4103E-02 1.006
0.7572 80.37 7.226 1.007
1864.76 -3 76.55 16.63 0.1307 1.041
0.8287 76.51 15.31 1.042
635.644 0 77.73 8.480 0.1395 1.043
0.8243 77.13 9.623 1.044
588.682 -1 77.08 9.553 0.1443 1.042
0.8232 77.20 9.686 1.044
588.153 -2 77.08 9.512 0.1453 1.041
0.8175 77.19 9.726 1.043
587.868 -3 77.05 9.511 0.1451 1.036
0.8035 77.17 9.714 1.039
587.828 -4 77.04 9.504 0.1450 1.035
0.7984 77.16 9.712 1.037
587.824 -5 77.04 9.504 0.1450 1.035
0.7981 77.16 9.712 1.037
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.40E-07 | 0.00 0.00 -0.36 0.63 -0.37 0.00 0.00 0.59
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.33E-06 | 0.00 0.01 -0.93 -0.23 0.15 0.00 0.01 -0.23
1.18E-03 | 0.04 0.01 -0.01 -0.28 -0.92 0.04 0.01 -0.27
3.48E-02 | -0.14 -0.72 0.00 0.00 0.00 0.12 0.67 0.00
7.53E-02 | 0.29 -0.60 -0.01 0.00 0.01 0.36 -0.65 0.00
4.98E-02 | 0.90 -0.03 0.00 0.01 0.02 -0.38 0.22 0.01
5.27E-02 | 0.30 0.35 0.00 0.01 0.04 0.84 0.28 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0394 +/- 0.227783 1
2 2 1 gaussian Sigma keV 9.50427 +/- 0.226873 1
3 3 1 gaussian norm 0.145008 +/- 0.311333E-02 1
4 4 2 powerlaw PhoIndex 1.03496 +/- 0.104585E-01 1
5 5 2 powerlaw norm 0.798073 +/- 0.334072E-01 1
6 6 3 gaussian LineE keV 77.1574 +/- 0.234117 2
7 7 3 gaussian Sigma keV 9.71226 +/- 0.232945 2
8 3 3 gaussian norm 0.145008 = par 3 2
9 8 4 powerlaw PhoIndex 1.03695 +/- 0.100349E-01 2
10 5 4 powerlaw norm 0.798073 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 587.8243 using 168 PHA bins.
Reduced chi-squared = 3.673902 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.520) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.520) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9205 photons ( 1.0960E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9140 photons ( 1.0883E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
98.43510
=====best line=====
77.0368 0.227449
=====best sigma=====
9.50756 0.226565
=====norm=====
0.145032 0.311173E-02
=====phoindx=====
1.03496 0.104585E-01
=====pow_norm=====
0.798028 0.334016E-01
=====best line=====
77.1573 0.234304
=====best sigma=====
9.71287 0.233084
=====norm=====
0.145032 par
=====phoindx=====
1.03694 0.100349E-01
=====pow_norm=====
0.798028 par
=====redu_chi=====
3.673904
=====area_flux=====
0.9205
=====area_flux_f=====
0.9140
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 5 1 640 2000 1232.5888 0 0.145032 0.311173E-02 9.50756 0.226565 1.03496 0.104585E-01 0.798028 0.334016E-01 0.9205 640 2000 1234.5168 0 0.145032 0.311173E-02 9.71287 0.233084 1.03694 0.100349E-01 0.798028 0.334016E-01 0.9140 3.673904 1
=====redu_chi=====
423.5695
=====best line=====
116.944 0.188397
=====best sigma=====
19.3655 1.56552
=====norm=====
0.989224 0.528661E-02
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.277 0.176018
=====best sigma=====
17.7119 0.109890
=====norm=====
0.989224 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
69.70685
=====area_flux=====
0.8004
=====area_flux_f=====
0.7648
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 5 1 1600 3200 1871.104 0 0.989224 0.528661E-02 309.848 25.04832 9.50001 -1.00000 0.00000 -1.00000 0.8004 1600 3200 1812.432 0 0.989224 0.528661E-02 283.3904 1.75824 9.50000 -1.00000 0.00000 -1.00000 0.7648 69.70685 1
=====redu_chi=====
151.8855
=====best line=====
77.0394 0.227783
=====best sigma=====
9.50427 0.226873
=====norm=====
0.145008 0.311333E-02
=====phoindx=====
1.03496 0.104585E-01
=====pow_norm=====
0.798073 0.334072E-01
=====best line=====
77.1574 0.234117
=====best sigma=====
9.71226 0.232945
=====norm=====
0.145008 par
=====phoindx=====
1.03695 0.100349E-01
=====pow_norm=====
0.798073 par
=====redu_chi=====
3.673902
=====area_flux=====
0.9205
=====area_flux_f=====
0.9140
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 5 1 640 2000 1232.6304 0 0.145008 0.311333E-02 9.50427 0.226873 1.03496 0.104585E-01 0.798073 0.334072E-01 0.9205 640 2000 1234.5184 0 0.145008 0.311333E-02 9.71226 0.232945 1.03695 0.100349E-01 0.798073 0.334072E-01 0.9140 3.673902 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:11 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.419 +/- 5.7460E-03
Net count rate (cts/s) for file 2 2.419 +/- 5.7460E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 559326.1 using 168 PHA bins.
Reduced chi-squared = 3495.788 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10483.47 using 168 PHA bins.
Reduced chi-squared = 65.52171 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1520.31 -3 84.45 15.61 0.1742 0.8853
0.4298 84.97 14.98 0.8820
882.061 -3 78.38 8.985 0.1028 0.8018
0.3148 80.32 9.164 0.8041
857.444 -2 78.68 11.31 0.1380 0.8157
0.3309 81.01 14.20 0.8154
651.045 -3 79.54 9.681 0.1150 0.8450
0.3803 81.62 9.018 0.8436
583.898 -1 78.93 9.714 0.1336 0.8457
0.3794 81.25 11.27 0.8457
547.892 -2 78.96 9.808 0.1375 0.8500
0.3843 81.15 9.979 0.8498
546.322 0 78.96 9.806 0.1378 0.8500
0.3844 81.15 10.20 0.8499
545.824 -1 78.96 9.863 0.1392 0.8505
0.3847 81.14 10.29 0.8506
544.868 -2 78.98 9.890 0.1400 0.8539
0.3898 81.16 10.31 0.8539
543.608 -3 79.04 9.921 0.1408 0.8636
0.4051 81.21 10.35 0.8633
543.145 -4 79.07 9.934 0.1411 0.8672
0.4120 81.24 10.36 0.8672
543.105 -5 79.07 9.935 0.1411 0.8673
0.4125 81.24 10.36 0.8675
543.104 -6 79.07 9.936 0.1412 0.8673
0.4125 81.24 10.36 0.8675
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.76E-07 | 0.00 0.00 -0.28 0.54 -0.61 0.00 0.00 0.51
1.04E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.53E-06 | 0.00 0.01 -0.96 -0.13 0.20 0.00 0.04 -0.14
4.38E-04 | 0.02 0.01 -0.02 -0.46 -0.76 0.02 0.10 -0.44
1.57E-03 | 0.00 -0.06 0.04 0.05 0.07 0.01 0.99 0.05
5.92E-02 | 0.82 0.52 0.00 0.01 0.02 -0.22 0.03 0.01
7.48E-02 | -0.50 0.49 0.00 -0.01 -0.01 -0.71 0.04 -0.01
6.58E-02 | -0.26 0.70 0.01 0.01 0.01 0.66 0.04 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.0693 +/- 0.252091 1
2 2 1 gaussian Sigma keV 9.93561 +/- 0.256724 1
3 3 1 gaussian norm 0.141151 +/- 0.341328E-02 1
4 4 2 powerlaw PhoIndex 0.867315 +/- 0.106017E-01 1
5 5 2 powerlaw norm 0.412455 +/- 0.173894E-01 1
6 6 3 gaussian LineE keV 81.2392 +/- 0.264660 2
7 7 3 gaussian Sigma keV 10.3559 +/- 0.425195E-01 2
8 3 3 gaussian norm 0.141151 = par 3 2
9 8 4 powerlaw PhoIndex 0.867463 +/- 0.101818E-01 2
10 5 4 powerlaw norm 0.412455 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 543.1044 using 168 PHA bins.
Reduced chi-squared = 3.394402 for 160 degrees of freedom
Null hypothesis probability = 3.447E-43
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.252) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.252) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9595 photons ( 1.1633E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9589 photons ( 1.1676E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:11 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.730 +/- 8.8428E-03
Net count rate (cts/s) for file 2 5.730 +/- 8.8428E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.311 +/- 1.0546E-02( 57.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.311 +/- 1.0546E-02( 57.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 7694935. using 198 PHA bins.
Reduced chi-squared = 40499.66 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 90092.73 using 198 PHA bins.
Reduced chi-squared = 474.1723 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
46967.1 -3 120.4 18.28 0.4139 2.868
0.2183 113.4 18.19 2.824
27721.6 -2 109.3 19.18 1.452 8.818
7.8129E-02 109.2 19.36 7.879
24388.1 0 110.6 19.35 1.370 9.288
1.1648E-02 110.7 19.36 9.105
22124.3 0 112.0 19.36 1.317 9.460
6.4057E-04 112.2 19.36 9.407
20365.0 0 113.5 19.36 1.278 9.482
2.2259E-04 113.7 19.37 9.476
19041.9 0 114.8 19.36 1.248 9.498
6.0806E-05 115.0 19.37 9.498
18073.3 0 115.9 19.37 1.225 9.499
9.3550E-06 116.1 19.37 9.499
17367.8 0 116.9 19.37 1.205 9.500
2.2402E-06 116.9 19.37 9.500
16877.5 0 117.8 19.37 1.190 9.500
3.4622E-07 117.6 19.37 9.500
16534.6 0 118.4 19.37 1.178 9.500
9.9860E-08 118.1 19.37 9.500
16291.4 0 119.0 19.37 1.169 9.500
3.6852E-08 118.5 19.37 9.500
16115.6 0 119.5 19.37 1.161 9.500
3.9622E-09 118.8 19.37 9.500
15811.7 0 120.4 19.37 1.143 9.500
7.4818E-11 119.2 19.37 9.500
15755.8 0 120.6 19.37 1.139 9.500
2.6395E-11 119.3 19.37 9.500
15714.5 0 120.8 19.37 1.136 9.500
1.9602E-12 119.3 19.37 9.500
15685.9 0 120.9 19.37 1.134 9.500
4.2447E-13 119.4 19.37 9.500
Fit parameter 5 has pegged
15620.8 0 121.0 19.37 1.126 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15599.1 0 121.0 19.37 1.123 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15589.1 0 121.1 19.37 1.122 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15585.9 0 121.1 19.37 1.121 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15582.3 0 121.1 19.37 1.121 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15579.8 0 121.1 19.37 1.120 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15577.5 0 121.1 19.37 1.120 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15552.1 0 121.2 19.37 1.117 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15529.2 0 121.3 19.37 1.114 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15508.5 0 121.4 19.37 1.112 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15489.7 0 121.4 19.37 1.109 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15472.6 0 121.5 19.37 1.107 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15457.1 0 121.6 19.37 1.105 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15442.9 0 121.6 19.37 1.103 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15429.9 0 121.7 19.37 1.101 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15418.1 0 121.7 19.37 1.099 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15407.3 0 121.8 19.37 1.098 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15397.4 0 121.8 19.37 1.096 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15388.2 0 121.9 19.37 1.095 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15379.9 0 122.0 19.37 1.093 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15372.3 0 122.0 19.37 1.092 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15365.2 0 122.1 19.37 1.091 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15358.7 0 122.1 19.37 1.090 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15352.7 0 122.1 19.37 1.089 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15347.2 0 122.2 19.37 1.088 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15342.1 0 122.2 19.37 1.087 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15337.4 0 122.3 19.37 1.086 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15333.1 0 122.3 19.37 1.085 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
15329.2 0 122.3 19.37 1.084 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
15325.4 0 122.4 19.37 1.084 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
15322.0 0 122.4 19.37 1.083 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
15318.8 0 122.4 19.37 1.082 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
15316.0 0 122.5 19.37 1.082 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
15313.3 0 122.5 19.37 1.081 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
15310.8 0 122.5 19.37 1.081 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
15308.4 0 122.6 19.37 1.080 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15306.2 0 122.6 19.37 1.079 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15304.2 0 122.6 19.37 1.079 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15302.3 0 122.6 19.37 1.079 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15300.6 0 122.7 19.37 1.078 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15298.9 0 122.7 19.37 1.078 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15297.4 0 122.7 19.37 1.077 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15296.0 0 122.7 19.37 1.077 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15294.7 0 122.7 19.37 1.077 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15293.6 0 122.8 19.37 1.076 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15292.4 0 122.8 19.37 1.076 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15291.4 0 122.8 19.37 1.076 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15290.3 0 122.8 19.37 1.075 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
15289.4 0 122.8 19.37 1.075 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15288.5 0 122.8 19.37 1.075 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15287.7 0 122.9 19.37 1.075 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15287.0 0 122.9 19.37 1.074 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15286.3 0 122.9 19.37 1.074 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15285.6 0 122.9 19.37 1.074 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15285.0 0 122.9 19.37 1.074 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15284.4 0 122.9 19.37 1.074 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15283.8 0 122.9 19.37 1.073 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15283.4 0 122.9 19.37 1.073 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15282.8 0 123.0 19.37 1.073 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15282.4 0 123.0 19.37 1.073 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15282.0 0 123.0 19.37 1.073 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15281.6 0 123.0 19.37 1.073 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15281.2 0 123.0 19.37 1.073 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15280.8 0 123.0 19.37 1.072 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15280.5 0 123.0 19.37 1.072 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15280.2 0 123.0 19.37 1.072 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15279.9 0 123.0 19.37 1.072 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15279.7 0 123.0 19.37 1.072 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15279.4 0 123.0 19.37 1.072 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15279.2 0 123.0 19.37 1.072 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15278.9 0 123.0 19.37 1.072 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15278.7 0 123.1 19.37 1.072 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15278.5 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15278.3 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15278.1 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15278.0 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15277.8 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15277.7 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15277.5 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15277.3 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15277.2 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15277.0 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.9 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.8 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.7 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.6 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.5 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.4 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.3 0 123.1 19.37 1.071 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.3 0 123.1 19.37 1.070 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.2 0 123.1 19.37 1.070 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.0 0 123.1 19.37 1.070 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15276.0 0 123.1 19.37 1.070 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15275.9 0 123.1 19.37 1.070 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15275.9 0 123.1 19.37 1.070 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15275.8 0 123.1 19.37 1.070 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15275.7 0 123.1 19.37 1.070 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
15275.7 1 123.1 19.37 1.070 9.500
0.000 119.7 19.37 9.500
15275.5 0 123.1 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.5 0 123.1 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.5 0 123.1 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.4 0 123.1 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.4 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.4 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.3 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.3 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.2 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.2 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.2 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.1 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.1 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.1 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
15275.0 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15275.0 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.9 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.9 2 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
15274.8 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.7 1 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.7 1 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.7 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
15274.7 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.6 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.6 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.6 1 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.5 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.5 1 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.5 1 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.4 0 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.4 1 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.3 1 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.2 1 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.2 3 123.2 19.37 1.070 9.500
0.000 119.8 19.37 9.500
15274.1 1 123.2 19.37 1.069 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.1 1 123.2 19.37 1.069 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.1 1 123.2 19.37 1.069 9.500
0.000 119.8 19.37 9.500
15274.0 1 123.2 19.37 1.069 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.0 0 123.2 19.37 1.069 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
15274.0 2 123.2 19.37 1.069 9.500
0.000 119.8 19.37 9.500
15274.0 0 123.2 19.37 1.069 9.500
0.000 119.8 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.45E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.58E-02 | 0.22 0.00 0.01 -0.97 -0.07
1.92E-02 | -0.97 -0.04 0.01 -0.22 -0.02
3.39E+00 | -0.04 0.93 0.00 -0.03 0.36
1.84E+00 | 0.01 -0.36 0.00 -0.06 0.93
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 123.194 +/- 0.154380 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.78382 1
3 3 1 gaussian norm 1.06935 +/- 0.489298E-02 1
4 4 2 powerlaw PhoIndex 9.50003 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 119.776 +/- 0.165631 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.42522 2
8 3 3 gaussian norm 1.06935 = par 3 2
9 8 4 powerlaw PhoIndex 9.50001 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 15273.95 using 198 PHA bins.
Reduced chi-squared = 80.38923 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 77.533) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 77.533) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9457 photons ( 1.9312E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9050 photons ( 1.8153E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:11 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.419 +/- 5.7460E-03
Net count rate (cts/s) for file 2 2.419 +/- 5.7460E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 641030.9 using 168 PHA bins.
Reduced chi-squared = 4006.443 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18261.54 using 168 PHA bins.
Reduced chi-squared = 114.1346 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1692.78 -3 86.44 13.29 0.1389 0.8974
0.4645 86.83 12.22 0.8919
880.492 -4 77.20 13.58 0.1447 0.8463
0.3687 79.85 12.05 0.8478
766.534 -5 81.41 9.218 0.1128 0.8834
0.4446 82.14 9.695 0.8812
707.199 -1 79.15 11.96 0.1364 0.8827
0.4425 81.37 11.80 0.8825
565.482 -2 79.76 9.763 0.1312 0.8781
0.4373 81.52 9.876 0.8784
554.832 0 79.46 9.727 0.1337 0.8784
0.4366 81.46 9.977 0.8786
550.615 -1 79.14 9.964 0.1404 0.8791
0.4342 81.34 10.80 0.8792
544.274 -2 79.14 9.945 0.1412 0.8767
0.4294 81.32 10.26 0.8769
543.251 -3 79.09 9.962 0.1416 0.8701
0.4175 81.25 10.40 0.8705
543.123 -4 79.08 9.937 0.1410 0.8672
0.4126 81.24 10.34 0.8675
543.105 -5 79.07 9.938 0.1412 0.8673
0.4125 81.24 10.36 0.8675
543.104 -6 79.07 9.934 0.1411 0.8673
0.4124 81.24 10.35 0.8675
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.76E-07 | 0.00 0.00 -0.28 0.54 -0.61 0.00 0.00 0.51
1.04E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.53E-06 | 0.00 0.01 -0.96 -0.13 0.20 0.00 0.04 -0.14
4.38E-04 | 0.02 0.01 -0.02 -0.46 -0.76 0.02 0.10 -0.44
1.57E-03 | 0.00 -0.06 0.04 0.05 0.07 0.01 0.99 0.05
5.92E-02 | 0.82 0.52 0.00 0.01 0.02 -0.22 0.03 0.01
7.49E-02 | -0.50 0.49 0.00 -0.01 -0.01 -0.71 0.04 -0.01
6.58E-02 | -0.26 0.70 0.01 0.01 0.01 0.66 0.04 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.0698 +/- 0.252118 1
2 2 1 gaussian Sigma keV 9.93441 +/- 0.256780 1
3 3 1 gaussian norm 0.141136 +/- 0.341482E-02 1
4 4 2 powerlaw PhoIndex 0.867303 +/- 0.106030E-01 1
5 5 2 powerlaw norm 0.412445 +/- 0.173930E-01 1
6 6 3 gaussian LineE keV 81.2393 +/- 0.264762 2
7 7 3 gaussian Sigma keV 10.3544 +/- 0.425421E-01 2
8 3 3 gaussian norm 0.141136 = par 3 2
9 8 4 powerlaw PhoIndex 0.867453 +/- 0.101831E-01 2
10 5 4 powerlaw norm 0.412445 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 543.1042 using 168 PHA bins.
Reduced chi-squared = 3.394402 for 160 degrees of freedom
Null hypothesis probability = 3.447E-43
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.252) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.252) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9595 photons ( 1.1633E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9589 photons ( 1.1676E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
65.52171
=====best line=====
79.0693 0.252091
=====best sigma=====
9.93561 0.256724
=====norm=====
0.141151 0.341328E-02
=====phoindx=====
0.867315 0.106017E-01
=====pow_norm=====
0.412455 0.173894E-01
=====best line=====
81.2392 0.264660
=====best sigma=====
10.3559 0.425195E-01
=====norm=====
0.141151 par
=====phoindx=====
0.867463 0.101818E-01
=====pow_norm=====
0.412455 par
=====redu_chi=====
3.394402
=====area_flux=====
0.9595
=====area_flux_f=====
0.9589
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 6 1 640 2000 1265.1088 0 0.141151 0.341328E-02 9.93561 0.256724 0.867315 0.106017E-01 0.412455 0.173894E-01 0.9595 640 2000 1299.8272 0 0.141151 0.341328E-02 10.3559 0.425195E-01 0.867463 0.101818E-01 0.412455 0.173894E-01 0.9589 3.394402 1
=====redu_chi=====
474.1723
=====best line=====
123.194 0.154380
=====best sigma=====
19.3655 1.78382
=====norm=====
1.06935 0.489298E-02
=====phoindx=====
9.50003 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.776 0.165631
=====best sigma=====
19.3655 1.42522
=====norm=====
1.06935 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
80.38923
=====area_flux=====
0.9457
=====area_flux_f=====
0.9050
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 6 1 1600 3200 1971.104 0 1.06935 0.489298E-02 309.848 28.54112 9.50003 -1.00000 0.00000 -1.00000 0.9457 1600 3200 1916.416 0 1.06935 0.489298E-02 309.848 22.80352 9.50001 -1.00000 0.00000 -1.00000 0.9050 80.38923 1
=====redu_chi=====
114.1346
=====best line=====
79.0698 0.252118
=====best sigma=====
9.93441 0.256780
=====norm=====
0.141136 0.341482E-02
=====phoindx=====
0.867303 0.106030E-01
=====pow_norm=====
0.412445 0.173930E-01
=====best line=====
81.2393 0.264762
=====best sigma=====
10.3544 0.425421E-01
=====norm=====
0.141136 par
=====phoindx=====
0.867453 0.101831E-01
=====pow_norm=====
0.412445 par
=====redu_chi=====
3.394402
=====area_flux=====
0.9595
=====area_flux_f=====
0.9589
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 6 1 640 2000 1265.1168 0 0.141136 0.341482E-02 9.93441 0.256780 0.867303 0.106030E-01 0.412445 0.173930E-01 0.9595 640 2000 1299.8288 0 0.141136 0.341482E-02 10.3544 0.425421E-01 0.867453 0.101831E-01 0.412445 0.173930E-01 0.9589 3.394402 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:12 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.632 +/- 7.0399E-03
Net count rate (cts/s) for file 2 3.632 +/- 7.0399E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 252025.9 using 168 PHA bins.
Reduced chi-squared = 1575.162 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 26490.01 using 168 PHA bins.
Reduced chi-squared = 165.5626 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6265.22 -3 84.99 17.50 0.3162 0.9184
0.6982 84.22 17.36 0.9105
4832.04 -4 68.63 19.18 0.6198 0.8698
0.4317 69.43 19.36 0.8729
4239.66 -5 66.08 4.827 0.1592 0.3410
7.4180E-02 69.02 8.543 0.3576
1500.95 -2 65.26 8.031 0.2188 0.4142
8.8701E-02 68.51 9.863 0.4145
1271.28 -2 64.27 9.755 0.2634 0.4516
0.1013 68.43 14.57 0.4504
1009.57 -2 64.22 10.67 0.2764 0.4720
0.1105 67.65 9.961 0.4717
926.270 -2 64.43 9.981 0.2627 0.4948
0.1228 68.56 12.73 0.4937
783.674 -2 64.55 9.875 0.2588 0.5129
0.1337 68.59 10.65 0.5124
729.115 -2 64.71 9.403 0.2478 0.5313
0.1459 69.00 10.37 0.5304
686.062 -2 64.82 9.157 0.2402 0.5478
0.1578 69.19 10.08 0.5469
653.701 -2 64.92 8.992 0.2347 0.5622
0.1688 69.34 9.965 0.5614
629.556 -2 65.00 8.870 0.2305 0.5747
0.1789 69.46 9.827 0.5740
611.526 -2 65.07 8.777 0.2271 0.5854
0.1880 69.55 9.600 0.5847
599.144 -2 65.12 8.704 0.2245 0.5943
0.1959 69.63 9.505 0.5937
590.520 -2 65.17 8.649 0.2225 0.6019
0.2028 69.69 9.436 0.6013
587.006 -3 65.34 8.459 0.2159 0.6282
0.2262 69.90 9.224 0.6268
573.156 -4 65.37 8.427 0.2143 0.6375
0.2375 69.96 9.168 0.6367
572.148 -5 65.37 8.437 0.2144 0.6369
0.2377 69.96 9.176 0.6366
572.148 -6 65.37 8.435 0.2144 0.6369
0.2377 69.96 9.175 0.6366
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
2.16E-07 | 0.00 0.00 -0.12 0.41 -0.81 0.00 0.00 0.40
6.53E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.74E-06 | 0.00 0.01 -0.99 -0.07 0.07 0.00 0.01 -0.08
1.68E-04 | 0.02 -0.02 0.05 -0.59 -0.58 0.02 -0.01 -0.56
2.15E-02 | -0.16 -0.80 0.00 0.00 0.00 0.02 0.58 0.00
5.72E-02 | 0.31 -0.52 -0.01 0.02 0.02 0.45 -0.65 0.02
2.89E-02 | -0.94 -0.04 0.00 -0.01 -0.01 0.12 -0.32 -0.01
3.37E-02 | 0.02 -0.29 -0.01 0.00 0.00 -0.88 -0.37 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 65.3690 +/- 0.177110 1
2 2 1 gaussian Sigma keV 8.43490 +/- 0.179737 1
3 3 1 gaussian norm 0.214412 +/- 0.426203E-02 1
4 4 2 powerlaw PhoIndex 0.636908 +/- 0.882539E-02 1
5 5 2 powerlaw norm 0.237732 +/- 0.895131E-02 1
6 6 3 gaussian LineE keV 69.9601 +/- 0.196100 2
7 7 3 gaussian Sigma keV 9.17472 +/- 0.197855 2
8 3 3 gaussian norm 0.214412 = par 3 2
9 8 4 powerlaw PhoIndex 0.636618 +/- 0.844143E-02 2
10 5 4 powerlaw norm 0.237732 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 572.1480 using 168 PHA bins.
Reduced chi-squared = 3.575925 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.426) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.426) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.478 photons ( 1.7812E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.480 photons ( 1.7991E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:12 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.913 +/- 1.1028E-02
Net count rate (cts/s) for file 2 8.913 +/- 1.1028E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.281 +/- 1.3084E-02( 59.3% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.281 +/- 1.3084E-02( 59.3% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.6450315E+07 using 198 PHA bins.
Reduced chi-squared = 86580.60 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 106423.9 using 198 PHA bins.
Reduced chi-squared = 560.1257 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
65942.3 -3 98.86 19.27 0.6193 2.608
8.2643E-02 99.15 19.28 2.566
64400.5 1 99.47 19.35 0.6330 1.566
0.3155 99.56 19.28 2.294
51684.2 0 104.5 19.36 0.7478 1.577
0.2994 102.9 19.15 2.309
43452.4 0 107.5 19.28 0.8374 1.590
0.2806 104.3 18.87 2.482
39816.3 0 115.9 18.81 1.200 1.695
0.1362 108.9 7.930 8.898
29456.8 0 116.3 16.92 1.171 1.950
5.1258E-02 108.6 9.969 8.874
18860.2 -1 116.6 18.03 1.407 5.939
1.6663E-02 107.2 17.79 9.294
17777.7 -2 116.4 17.45 1.414 9.088
7.1447E-03 111.8 14.93 9.454
17294.4 0 116.5 17.57 1.403 9.372
2.1310E-03 112.1 15.72 9.491
17285.9 0 116.5 17.56 1.401 9.449
2.8796E-04 112.1 15.73 9.498
17279.6 0 116.5 17.54 1.400 9.477
1.2079E-04 112.0 15.73 9.499
17274.8 0 116.5 17.53 1.399 9.497
3.1980E-05 112.0 15.74 9.500
17271.0 0 116.5 17.52 1.398 9.499
9.0577E-06 112.0 15.74 9.500
17268.2 0 116.5 17.52 1.397 9.500
3.3061E-06 112.0 15.75 9.500
17265.8 0 116.4 17.51 1.396 9.500
4.3093E-07 112.0 15.75 9.500
17264.0 0 116.4 17.50 1.395 9.500
7.1799E-08 112.0 15.76 9.500
17262.5 0 116.4 17.50 1.394 9.500
2.6953E-08 112.0 15.76 9.500
17261.4 0 116.4 17.49 1.394 9.500
4.5493E-09 112.0 15.76 9.500
17257.1 0 116.4 17.48 1.392 9.500
7.6642E-11 111.9 15.76 9.500
17255.9 0 116.4 17.48 1.392 9.500
2.9293E-11 111.9 15.76 9.500
17254.9 0 116.4 17.47 1.391 9.500
5.6771E-12 111.9 15.76 9.500
17254.1 0 116.4 17.47 1.391 9.500
2.7309E-12 111.9 15.76 9.500
17253.4 0 116.4 17.46 1.390 9.500
1.2601E-12 111.9 15.76 9.500
17252.9 0 116.4 17.46 1.390 9.500
5.2573E-13 111.9 15.77 9.500
17252.5 0 116.4 17.46 1.390 9.500
1.5895E-13 111.9 15.77 9.500
17252.0 0 116.5 17.46 1.390 9.500
6.7333E-14 111.9 15.77 9.500
17251.7 0 116.5 17.45 1.389 9.500
2.1562E-14 111.9 15.77 9.500
Fit parameter 5 has pegged
17248.1 0 116.5 17.42 1.388 9.500
0.000 111.8 15.75 9.500
Fit parameter 5 has pegged
17246.7 -1 116.6 17.37 1.385 9.500
0.000 111.8 15.75 9.500
Fit parameter 5 has pegged
17246.5 -2 116.6 17.36 1.384 9.500
0.000 111.8 15.75 9.500
Fit parameter 5 has pegged
17246.4 -1 116.6 17.35 1.384 9.500
0.000 111.8 15.75 9.500
Fit parameter 5 has pegged
17246.4 2 116.6 17.35 1.384 9.500
0.000 111.8 15.75 9.500
Fit parameter 5 has pegged
17246.4 3 116.6 17.35 1.384 9.500
0.000 111.8 15.75 9.500
17246.4 3 116.6 17.35 1.384 9.500
0.000 111.8 15.75 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.11E-05 | -0.01 0.01 -1.00 -0.01 0.04
3.37E-04 | 0.01 -0.01 0.03 0.14 0.99
2.01E-03 | -0.35 -0.94 -0.01 -0.02 0.00
2.80E-02 | 0.75 -0.29 -0.02 0.59 -0.09
1.54E-02 | 0.57 -0.20 0.01 -0.79 0.10
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.641 +/- 0.144040 1
2 2 1 gaussian Sigma keV 17.3546 +/- 0.685514E-01 1
3 3 1 gaussian norm 1.38370 +/- 0.620897E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 111.790 +/- 0.139630 2
7 7 3 gaussian Sigma keV 15.7485 +/- 0.267430E-01 2
8 3 3 gaussian norm 1.38370 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 17246.36 using 198 PHA bins.
Reduced chi-squared = 90.77033 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 87.545) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 87.545) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.150 photons ( 2.2461E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.069 photons ( 2.0207E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:12 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.632 +/- 7.0399E-03
Net count rate (cts/s) for file 2 3.632 +/- 7.0399E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 337939.1 using 168 PHA bins.
Reduced chi-squared = 2112.119 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 43870.13 using 168 PHA bins.
Reduced chi-squared = 274.1883 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
16497.9 -3 88.19 13.80 0.1135 0.7289
0.4521 87.23 14.11 0.7233
4599.00 -4 65.63 19.25 0.3684 0.8734
0.5828 61.74 19.18 0.8670
4265.82 0 66.07 19.09 0.3660 0.8733
0.5821 62.95 19.33 0.8672
3998.99 0 66.46 18.92 0.3641 0.8732
0.5815 64.06 19.36 0.8674
3647.82 0 68.51 9.457 0.3515 0.8716
0.5783 69.70 19.30 0.8684
2211.19 -1 67.43 9.695 0.2426 0.8531
0.5848 75.33 9.061 0.8576
1236.89 -2 66.78 8.500 0.2044 0.8024
0.4807 72.00 11.24 0.8038
902.141 -2 66.22 7.995 0.1935 0.7659
0.4176 71.19 9.729 0.7668
744.266 -2 65.92 8.098 0.1989 0.7390
0.3715 70.74 8.611 0.7396
677.039 -2 65.81 8.136 0.2023 0.7176
0.3389 70.48 8.839 0.7181
637.559 -2 65.72 8.177 0.2040 0.7011
0.3157 70.40 8.860 0.7014
613.510 -2 65.65 8.219 0.2057 0.6882
0.2984 70.31 8.914 0.6884
597.302 -3 65.42 8.422 0.2124 0.6499
0.2498 70.05 9.132 0.6512
572.332 -4 65.37 8.447 0.2146 0.6363
0.2373 69.96 9.184 0.6365
572.149 -5 65.37 8.434 0.2144 0.6369
0.2378 69.96 9.174 0.6366
572.148 -6 65.37 8.436 0.2144 0.6369
0.2377 69.96 9.175 0.6366
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
2.16E-07 | 0.00 0.00 -0.12 0.41 -0.81 0.00 0.00 0.40
6.53E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.74E-06 | 0.00 0.01 -0.99 -0.07 0.07 0.00 0.01 -0.08
1.68E-04 | 0.02 -0.02 0.05 -0.59 -0.58 0.02 -0.01 -0.56
2.15E-02 | -0.16 -0.80 0.00 0.00 0.00 0.02 0.58 0.00
5.71E-02 | 0.31 -0.52 -0.01 0.02 0.02 0.45 -0.65 0.02
2.89E-02 | -0.94 -0.04 0.00 -0.01 -0.01 0.12 -0.32 -0.01
3.37E-02 | 0.02 -0.29 -0.01 0.00 0.00 -0.88 -0.37 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 65.3682 +/- 0.177040 1
2 2 1 gaussian Sigma keV 8.43600 +/- 0.179651 1
3 3 1 gaussian norm 0.214430 +/- 0.425963E-02 1
4 4 2 powerlaw PhoIndex 0.636879 +/- 0.882254E-02 1
5 5 2 powerlaw norm 0.237703 +/- 0.895053E-02 1
6 6 3 gaussian LineE keV 69.9596 +/- 0.196072 2
7 7 3 gaussian Sigma keV 9.17534 +/- 0.197803 2
8 3 3 gaussian norm 0.214430 = par 3 2
9 8 4 powerlaw PhoIndex 0.636592 +/- 0.843877E-02 2
10 5 4 powerlaw norm 0.237703 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 572.1483 using 168 PHA bins.
Reduced chi-squared = 3.575927 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.426) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.426) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.478 photons ( 1.7813E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.480 photons ( 1.7991E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
165.5626
=====best line=====
65.3690 0.177110
=====best sigma=====
8.43490 0.179737
=====norm=====
0.214412 0.426203E-02
=====phoindx=====
0.636908 0.882539E-02
=====pow_norm=====
0.237732 0.895131E-02
=====best line=====
69.9601 0.196100
=====best sigma=====
9.17472 0.197855
=====norm=====
0.214412 par
=====phoindx=====
0.636618 0.844143E-02
=====pow_norm=====
0.237732 par
=====redu_chi=====
3.575925
=====area_flux=====
1.478
=====area_flux_f=====
1.480
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 7 1 640 2000 1045.904 0 0.214412 0.426203E-02 8.43490 0.179737 0.636908 0.882539E-02 0.237732 0.895131E-02 1.478 640 2000 1119.3616 0 0.214412 0.426203E-02 9.17472 0.197855 0.636618 0.844143E-02 0.237732 0.895131E-02 1.480 3.575925 1
=====redu_chi=====
560.1257
=====best line=====
116.641 0.144040
=====best sigma=====
17.3546 0.685514E-01
=====norm=====
1.38370 0.620897E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.790 0.139630
=====best sigma=====
15.7485 0.267430E-01
=====norm=====
1.38370 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
90.77033
=====area_flux=====
1.150
=====area_flux_f=====
1.069
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 7 1 1600 3200 1866.256 0 1.38370 0.620897E-02 277.6736 1.0968224 9.50000 -1.00000 0.00000 -1.00000 1.150 1600 3200 1788.64 0 1.38370 0.620897E-02 251.976 0.427888 9.50000 -1.00000 0.00000 -1.00000 1.069 90.77033 1
=====redu_chi=====
274.1883
=====best line=====
65.3682 0.177040
=====best sigma=====
8.43600 0.179651
=====norm=====
0.214430 0.425963E-02
=====phoindx=====
0.636879 0.882254E-02
=====pow_norm=====
0.237703 0.895053E-02
=====best line=====
69.9596 0.196072
=====best sigma=====
9.17534 0.197803
=====norm=====
0.214430 par
=====phoindx=====
0.636592 0.843877E-02
=====pow_norm=====
0.237703 par
=====redu_chi=====
3.575927
=====area_flux=====
1.478
=====area_flux_f=====
1.480
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 7 1 640 2000 1045.8912 0 0.214430 0.425963E-02 8.43600 0.179651 0.636879 0.882254E-02 0.237703 0.895053E-02 1.478 640 2000 1119.3536 0 0.214430 0.425963E-02 9.17534 0.197803 0.636592 0.843877E-02 0.237703 0.895053E-02 1.480 3.575927 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:12 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.377 +/- 6.7885E-03
Net count rate (cts/s) for file 2 3.377 +/- 6.7885E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 299093.4 using 168 PHA bins.
Reduced chi-squared = 1869.334 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 20945.71 using 168 PHA bins.
Reduced chi-squared = 130.9107 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8093.33 -3 82.99 17.28 0.3511 1.047
0.8414 82.79 17.21 1.039
7480.55 -3 75.37 17.80 0.3066 0.8269
0.3536 75.39 17.33 0.8360
5555.08 -2 76.52 4.755 7.8240E-02 0.7848
0.4549 76.88 1.561 0.7770
3507.02 -3 75.27 6.730 8.1409E-02 0.8074
0.4818 76.87 2.640 0.8061
1980.91 -4 73.92 8.022 0.1208 0.8208
0.4982 76.68 4.983 0.8198
973.919 -5 74.41 8.730 0.1759 0.8327
0.5056 76.07 8.264 0.8323
884.812 -6 74.28 9.336 0.2069 0.8334
0.4959 75.44 9.570 0.8341
880.602 -7 74.47 9.029 0.2032 0.8347
0.4997 75.56 9.174 0.8352
879.888 -8 74.36 9.188 0.2058 0.8333
0.4959 75.49 9.315 0.8340
879.753 -9 74.41 9.113 0.2048 0.8339
0.4974 75.52 9.261 0.8344
879.724 -10 74.39 9.147 0.2053 0.8336
0.4966 75.51 9.284 0.8342
879.718 -11 74.40 9.131 0.2050 0.8337
0.4969 75.51 9.274 0.8343
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.89E-07 | 0.00 0.00 -0.20 0.59 -0.55 0.00 0.00 0.56
7.43E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.10E-06 | 0.00 0.01 -0.98 -0.11 0.12 0.00 0.01 -0.12
3.76E-04 | 0.02 0.00 -0.01 -0.41 -0.83 0.02 0.00 -0.39
2.34E-02 | -0.09 -0.72 0.00 0.00 0.00 0.09 0.68 0.00
4.93E-02 | 0.32 -0.60 -0.01 0.01 0.02 0.36 -0.64 0.01
3.33E-02 | 0.80 -0.06 0.00 0.00 0.00 -0.59 0.13 0.00
3.48E-02 | 0.50 0.34 0.00 0.01 0.02 0.72 0.34 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 74.3992 +/- 0.187804 1
2 2 1 gaussian Sigma keV 9.13120 +/- 0.184674 1
3 3 1 gaussian norm 0.205030 +/- 0.365173E-02 1
4 4 2 powerlaw PhoIndex 0.833709 +/- 0.837720E-02 1
5 5 2 powerlaw norm 0.496947 +/- 0.169988E-01 1
6 6 3 gaussian LineE keV 75.5097 +/- 0.189905 2
7 7 3 gaussian Sigma keV 9.27386 +/- 0.188067 2
8 3 3 gaussian norm 0.205030 = par 3 2
9 8 4 powerlaw PhoIndex 0.834294 +/- 0.803167E-02 2
10 5 4 powerlaw norm 0.496947 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 879.7176 using 168 PHA bins.
Reduced chi-squared = 5.498235 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.268) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.268) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.343 photons ( 1.6182E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.340 photons ( 1.6183E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:12 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.011 +/- 1.0456E-02
Net count rate (cts/s) for file 2 8.011 +/- 1.0456E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.634 +/- 1.2466E-02( 57.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.634 +/- 1.2466E-02( 57.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.2707401E+07 using 198 PHA bins.
Reduced chi-squared = 66881.05 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 100286.7 using 198 PHA bins.
Reduced chi-squared = 527.8249 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
59177.8 -3 109.8 18.36 0.4761 2.811
0.1144 103.9 18.41 2.755
31700.9 -2 96.25 19.26 2.001 9.156
4.3903E-02 98.69 19.23 8.608
30475.2 -1 98.22 19.32 2.049 9.499
1.1615E-02 99.50 19.33 9.352
29575.3 -1 99.62 19.35 2.042 9.500
4.3255E-03 100.1 19.36 9.454
28662.5 -1 100.8 19.36 2.018 9.500
3.4827E-04 100.7 19.36 9.489
27941.7 -1 101.7 19.37 1.998 9.500
1.3549E-04 101.2 19.36 9.498
26918.1 -1 102.7 19.37 1.960 9.500
2.2305E-05 101.8 19.37 9.500
25956.2 -1 103.6 19.37 1.927 9.500
7.0485E-06 102.5 19.37 9.500
24569.7 -1 104.7 19.37 1.873 9.500
2.9803E-06 103.4 19.37 9.500
22341.3 -1 106.8 19.37 1.793 9.500
6.6197E-08 105.2 19.37 9.500
21354.6 -1 107.7 19.37 1.754 9.500
1.0588E-08 106.0 19.37 9.500
19170.3 -1 109.8 19.37 1.655 9.500
9.5414E-10 107.8 19.37 9.500
18414.7 -1 110.8 19.37 1.614 9.500
3.7196E-10 108.6 19.37 9.500
17975.4 -1 111.4 19.37 1.588 9.500
7.5835E-11 109.2 19.37 9.500
17608.8 -1 112.0 19.37 1.561 9.500
1.7998E-12 109.7 19.37 9.500
17404.1 -1 112.4 19.37 1.543 9.500
6.2096E-13 110.1 19.37 9.500
Fit parameter 5 has pegged
16798.4 0 113.3 19.37 1.486 9.500
0.000 110.3 18.98 9.500
Fit parameter 5 has pegged
16453.2 -1 113.8 19.37 1.435 9.500
0.000 111.2 18.64 9.500
Fit parameter 5 has pegged
16283.0 -2 114.3 19.37 1.410 9.500
0.000 111.9 18.48 9.500
Fit parameter 5 has pegged
16231.4 -3 114.5 19.37 1.401 9.500
0.000 112.1 18.39 9.500
Fit parameter 5 has pegged
16208.9 -4 114.6 19.37 1.397 9.500
0.000 112.2 18.37 9.500
Fit parameter 5 has pegged
16199.0 -5 114.6 19.37 1.395 9.500
0.000 112.3 18.35 9.500
Fit parameter 5 has pegged
16195.4 -6 114.6 19.37 1.395 9.500
0.000 112.3 18.35 9.500
Fit parameter 5 has pegged
16194.5 -7 114.6 19.37 1.395 9.500
0.000 112.3 18.35 9.500
Fit parameter 5 has pegged
16162.4 -1 114.8 19.37 1.390 9.500
0.000 112.4 18.32 9.500
Fit parameter 5 has pegged
16136.3 -1 114.9 19.37 1.385 9.500
0.000 112.4 18.30 9.500
Fit parameter 5 has pegged
16135.7 -1 114.9 19.37 1.384 9.500
0.000 112.5 18.29 9.500
Fit parameter 5 has pegged
16135.1 -1 114.9 19.37 1.384 9.500
0.000 112.5 18.28 9.500
Fit parameter 5 has pegged
16123.9 -1 115.0 19.37 1.382 9.500
0.000 112.5 18.27 9.500
Fit parameter 5 has pegged
16088.6 0 115.2 19.37 1.376 9.500
0.000 112.5 18.26 9.500
Fit parameter 5 has pegged
16067.1 0 115.4 19.37 1.372 9.500
0.000 112.6 18.25 9.500
Fit parameter 5 has pegged
16051.7 0 115.5 19.37 1.368 9.500
0.000 112.6 18.23 9.500
Fit parameter 5 has pegged
16042.4 0 115.6 19.37 1.365 9.500
0.000 112.7 18.22 9.500
Fit parameter 5 has pegged
16036.0 0 115.7 19.37 1.363 9.500
0.000 112.7 18.20 9.500
Fit parameter 5 has pegged
16031.6 0 115.7 19.37 1.361 9.500
0.000 112.8 18.19 9.500
Fit parameter 5 has pegged
16028.2 0 115.8 19.37 1.359 9.500
0.000 112.8 18.17 9.500
Fit parameter 5 has pegged
16026.0 0 115.8 19.37 1.358 9.500
0.000 112.8 18.16 9.500
Fit parameter 5 has pegged
16023.8 0 115.8 19.37 1.357 9.500
0.000 112.9 18.15 9.500
Fit parameter 5 has pegged
16021.7 0 115.8 19.37 1.356 9.500
0.000 112.9 18.14 9.500
Fit parameter 5 has pegged
16020.5 0 115.8 19.37 1.355 9.500
0.000 112.9 18.14 9.500
Fit parameter 5 has pegged
16019.7 0 115.9 19.37 1.355 9.500
0.000 112.9 18.13 9.500
Fit parameter 5 has pegged
16018.6 0 115.9 19.37 1.354 9.500
0.000 112.9 18.12 9.500
Fit parameter 5 has pegged
16018.2 0 115.9 19.37 1.354 9.500
0.000 113.0 18.12 9.500
Fit parameter 5 has pegged
16017.7 0 115.9 19.37 1.353 9.500
0.000 113.0 18.12 9.500
Fit parameter 5 has pegged
16017.0 0 115.9 19.37 1.353 9.500
0.000 113.0 18.11 9.500
Fit parameter 5 has pegged
16016.9 0 115.9 19.37 1.353 9.500
0.000 113.0 18.11 9.500
Fit parameter 5 has pegged
16016.3 0 115.9 19.37 1.353 9.500
0.000 113.0 18.11 9.500
Fit parameter 5 has pegged
16016.0 0 115.9 19.37 1.352 9.500
0.000 113.0 18.11 9.500
Fit parameter 5 has pegged
16014.7 0 115.9 19.37 1.352 9.500
0.000 113.0 18.11 9.500
Fit parameter 5 has pegged
16013.5 0 116.0 19.37 1.352 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16012.5 0 116.0 19.37 1.351 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16011.6 0 116.0 19.37 1.351 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16010.7 0 116.0 19.37 1.350 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16010.0 0 116.0 19.37 1.350 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16009.3 0 116.0 19.37 1.350 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16008.6 0 116.1 19.37 1.349 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16008.2 0 116.1 19.37 1.349 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16007.8 0 116.1 19.37 1.349 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16007.3 0 116.1 19.37 1.348 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16006.8 0 116.1 19.37 1.348 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16006.5 0 116.1 19.37 1.348 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16006.1 0 116.1 19.37 1.348 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16005.9 0 116.1 19.37 1.347 9.500
0.000 113.0 18.10 9.500
Fit parameter 5 has pegged
16005.6 0 116.2 19.37 1.347 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
16005.2 0 116.2 19.37 1.347 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
16005.1 0 116.2 19.37 1.347 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
16004.9 0 116.2 19.37 1.346 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
16004.7 0 116.2 19.37 1.346 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
16004.5 0 116.2 19.37 1.346 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
16004.4 0 116.2 19.37 1.346 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
16004.2 0 116.2 19.37 1.346 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
16004.0 0 116.2 19.37 1.346 9.500
0.000 113.1 18.09 9.500
Fit parameter 5 has pegged
16003.9 0 116.2 19.37 1.345 9.500
0.000 113.1 18.09 9.500
Fit parameter 5 has pegged
16003.8 0 116.2 19.37 1.345 9.500
0.000 113.1 18.08 9.500
Fit parameter 5 has pegged
16003.6 0 116.2 19.37 1.345 9.500
0.000 113.1 18.08 9.500
Fit parameter 5 has pegged
16003.5 0 116.2 19.37 1.345 9.500
0.000 113.1 18.08 9.500
Fit parameter 5 has pegged
16003.4 0 116.2 19.37 1.345 9.500
0.000 113.1 18.08 9.500
Fit parameter 5 has pegged
16003.3 3 116.2 19.37 1.345 9.500
0.000 113.1 18.08 9.500
16003.3 4 116.2 19.37 1.345 9.500
0.000 113.1 18.08 9.500
Fit parameter 5 has pegged
16003.3 4 116.2 19.37 1.345 9.500
0.000 113.1 18.08 9.500
16003.3 4 116.2 19.37 1.345 9.500
0.000 113.1 18.08 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.09E-05 | -0.01 0.00 -1.00 -0.01 0.01
6.48E-03 | 0.02 0.00 0.00 -0.64 -0.77
1.52E-02 | -0.98 -0.07 0.01 0.14 -0.14
3.73E-02 | 0.19 0.06 -0.02 0.76 -0.62
2.03E+00 | -0.08 1.00 0.00 -0.03 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.233 +/- 0.171720 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.41988 1
3 3 1 gaussian norm 1.34471 +/- 0.660009E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.065 +/- 0.163575 2
7 7 3 gaussian Sigma keV 18.0821 +/- 0.141443 2
8 3 3 gaussian norm 1.34471 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 16003.32 using 198 PHA bins.
Reduced chi-squared = 84.22800 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 81.235) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 81.235) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.074 photons ( 2.1179E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.029 photons ( 1.9831E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:13 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.377 +/- 6.7885E-03
Net count rate (cts/s) for file 2 3.377 +/- 6.7885E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 380360.1 using 168 PHA bins.
Reduced chi-squared = 2377.250 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 35107.59 using 168 PHA bins.
Reduced chi-squared = 219.4225 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6051.45 -3 86.00 15.12 0.2088 0.9694
0.7587 85.65 14.87 0.9605
2883.52 -4 71.04 18.31 0.3338 0.9020
0.5774 71.19 17.97 0.9050
1991.27 0 73.70 14.39 0.3363 0.9005
0.5811 73.85 16.04 0.9023
1101.33 -1 75.49 10.56 0.2447 0.8895
0.6057 76.32 9.631 0.8907
929.461 -2 74.99 9.886 0.2062 0.8739
0.5900 75.84 9.372 0.8747
887.425 -3 74.61 9.083 0.2045 0.8445
0.5193 75.59 9.265 0.8463
880.037 -4 74.38 9.205 0.2059 0.8336
0.4968 75.50 9.307 0.8346
879.754 -5 74.42 9.113 0.2048 0.8339
0.4974 75.51 9.263 0.8345
879.725 -6 74.39 9.148 0.2053 0.8336
0.4966 75.51 9.284 0.8342
879.718 -7 74.40 9.131 0.2050 0.8337
0.4969 75.51 9.274 0.8343
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.89E-07 | 0.00 0.00 -0.20 0.59 -0.55 0.00 0.00 0.56
7.43E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.10E-06 | 0.00 0.01 -0.98 -0.11 0.12 0.00 0.01 -0.12
3.76E-04 | 0.02 0.00 -0.01 -0.41 -0.83 0.02 0.00 -0.39
2.34E-02 | -0.09 -0.72 0.00 0.00 0.00 0.09 0.68 0.00
4.93E-02 | 0.32 -0.60 -0.01 0.01 0.02 0.36 -0.64 0.01
3.33E-02 | 0.80 -0.06 0.00 0.00 0.00 -0.59 0.13 0.00
3.48E-02 | 0.50 0.34 0.00 0.01 0.02 0.72 0.34 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 74.3994 +/- 0.187819 1
2 2 1 gaussian Sigma keV 9.13116 +/- 0.184691 1
3 3 1 gaussian norm 0.205030 +/- 0.365185E-02 1
4 4 2 powerlaw PhoIndex 0.833711 +/- 0.837733E-02 1
5 5 2 powerlaw norm 0.496950 +/- 0.169993E-01 1
6 6 3 gaussian LineE keV 75.5097 +/- 0.189898 2
7 7 3 gaussian Sigma keV 9.27395 +/- 0.188057 2
8 3 3 gaussian norm 0.205030 = par 3 2
9 8 4 powerlaw PhoIndex 0.834296 +/- 0.803180E-02 2
10 5 4 powerlaw norm 0.496950 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 879.7183 using 168 PHA bins.
Reduced chi-squared = 5.498240 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.268) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.268) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.343 photons ( 1.6182E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.340 photons ( 1.6183E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
130.9107
=====best line=====
74.3992 0.187804
=====best sigma=====
9.13120 0.184674
=====norm=====
0.205030 0.365173E-02
=====phoindx=====
0.833709 0.837720E-02
=====pow_norm=====
0.496947 0.169988E-01
=====best line=====
75.5097 0.189905
=====best sigma=====
9.27386 0.188067
=====norm=====
0.205030 par
=====phoindx=====
0.834294 0.803167E-02
=====pow_norm=====
0.496947 par
=====redu_chi=====
5.498235
=====area_flux=====
1.343
=====area_flux_f=====
1.340
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 8 1 640 2000 1190.3872 0 0.205030 0.365173E-02 9.13120 0.184674 0.833709 0.837720E-02 0.496947 0.169988E-01 1.343 640 2000 1208.1552 0 0.205030 0.365173E-02 9.27386 0.188067 0.834294 0.803167E-02 0.496947 0.169988E-01 1.340 5.498235 1
=====redu_chi=====
527.8249
=====best line=====
116.233 0.171720
=====best sigma=====
19.3655 1.41988
=====norm=====
1.34471 0.660009E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.065 0.163575
=====best sigma=====
18.0821 0.141443
=====norm=====
1.34471 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
84.22800
=====area_flux=====
1.074
=====area_flux_f=====
1.029
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 8 1 1600 3200 1859.728 0 1.34471 0.660009E-02 309.848 22.71808 9.50000 -1.00000 0.00000 -1.00000 1.074 1600 3200 1809.04 0 1.34471 0.660009E-02 289.3136 2.263088 9.50000 -1.00000 0.00000 -1.00000 1.029 84.22800 1
=====redu_chi=====
219.4225
=====best line=====
74.3994 0.187819
=====best sigma=====
9.13116 0.184691
=====norm=====
0.205030 0.365185E-02
=====phoindx=====
0.833711 0.837733E-02
=====pow_norm=====
0.496950 0.169993E-01
=====best line=====
75.5097 0.189898
=====best sigma=====
9.27395 0.188057
=====norm=====
0.205030 par
=====phoindx=====
0.834296 0.803180E-02
=====pow_norm=====
0.496950 par
=====redu_chi=====
5.498240
=====area_flux=====
1.343
=====area_flux_f=====
1.340
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 8 1 640 2000 1190.3904 0 0.205030 0.365185E-02 9.13116 0.184691 0.833711 0.837733E-02 0.496950 0.169993E-01 1.343 640 2000 1208.1552 0 0.205030 0.365185E-02 9.27395 0.188057 0.834296 0.803180E-02 0.496950 0.169993E-01 1.340 5.498240 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:13 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.404 +/- 5.7271E-03
Net count rate (cts/s) for file 2 2.404 +/- 5.7271E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 599541.0 using 168 PHA bins.
Reduced chi-squared = 3747.131 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13273.97 using 168 PHA bins.
Reduced chi-squared = 82.96234 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2710.64 -3 83.48 16.50 0.2000 0.9720
0.5235 83.59 16.33 0.9651
1233.00 -3 76.48 9.389 0.1296 0.8269
0.3246 77.12 9.356 0.8317
825.159 -4 77.02 9.712 0.1416 0.8926
0.4286 78.11 11.01 0.8890
584.196 -5 77.09 9.510 0.1384 0.8900
0.4488 78.23 9.930 0.8895
582.983 -6 77.04 9.691 0.1415 0.8905
0.4487 78.16 9.962 0.8904
582.938 -7 77.07 9.625 0.1409 0.8904
0.4489 78.17 9.940 0.8903
582.928 -8 77.06 9.652 0.1412 0.8904
0.4488 78.17 9.947 0.8904
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.19E-07 | 0.00 0.00 -0.29 0.55 -0.58 0.00 0.00 0.53
1.05E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.41E-06 | 0.00 0.01 -0.96 -0.15 0.19 0.00 0.01 -0.16
4.75E-04 | 0.02 0.01 -0.02 -0.44 -0.80 0.02 0.01 -0.42
3.97E-02 | -0.13 -0.74 0.00 0.00 0.00 0.10 0.66 0.00
8.66E-02 | 0.26 -0.60 -0.01 0.00 0.00 0.33 -0.68 0.00
5.69E-02 | 0.90 -0.04 0.00 0.01 0.01 -0.39 0.19 0.01
6.22E-02 | 0.32 0.30 0.00 0.01 0.02 0.85 0.27 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0567 +/- 0.243070 1
2 2 1 gaussian Sigma keV 9.65218 +/- 0.242397 1
3 3 1 gaussian norm 0.141178 +/- 0.323305E-02 1
4 4 2 powerlaw PhoIndex 0.890425 +/- 0.102205E-01 1
5 5 2 powerlaw norm 0.448838 +/- 0.184502E-01 1
6 6 3 gaussian LineE keV 78.1686 +/- 0.252749 2
7 7 3 gaussian Sigma keV 9.94678 +/- 0.252189 2
8 3 3 gaussian norm 0.141178 = par 3 2
9 8 4 powerlaw PhoIndex 0.890389 +/- 0.981012E-02 2
10 5 4 powerlaw norm 0.448838 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 582.9283 using 168 PHA bins.
Reduced chi-squared = 3.643302 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.491) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.491) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9481 photons ( 1.1427E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9482 photons ( 1.1454E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:13 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.564 +/- 8.7136E-03
Net count rate (cts/s) for file 2 5.564 +/- 8.7136E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.160 +/- 1.0427E-02( 56.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.160 +/- 1.0427E-02( 56.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.1966378E+07 using 198 PHA bins.
Reduced chi-squared = 62980.94 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 79194.49 using 198 PHA bins.
Reduced chi-squared = 416.8131 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
42568.9 -3 115.5 19.12 0.3680 2.764
0.1267 109.9 19.13 2.713
15202.7 -2 110.8 19.32 1.219 7.384
6.3243E-02 111.7 19.32 9.077
15036.6 -2 111.7 19.36 1.233 8.745
3.0490E-03 110.4 19.35 9.500
14361.0 -1 112.7 19.37 1.201 9.315
3.5542E-04 110.8 19.36 9.500
14149.4 -1 113.3 19.37 1.194 9.479
1.6308E-04 111.0 19.36 9.500
13969.8 -1 113.7 19.37 1.185 9.492
7.5388E-05 111.2 19.37 9.500
13840.2 -1 114.0 19.37 1.178 9.496
2.9929E-05 111.4 19.37 9.500
13706.3 -1 114.2 19.37 1.169 9.499
7.1777E-06 111.6 19.37 9.500
13666.7 -1 114.4 19.37 1.167 9.500
1.4591E-06 111.7 19.37 9.500
13589.9 -1 114.5 19.37 1.162 9.500
1.4551E-07 111.8 19.37 9.500
13548.6 -1 114.6 19.37 1.159 9.500
1.8292E-09 111.9 19.37 9.500
13450.4 -1 114.7 19.37 1.148 9.500
6.3714E-11 112.2 19.37 9.500
13112.9 0 115.3 19.37 1.118 9.500
3.4473E-12 112.3 19.37 9.500
12936.1 0 115.8 19.37 1.099 9.500
1.5722E-12 112.4 19.37 9.500
12823.5 0 116.2 19.37 1.086 9.500
6.3148E-13 112.6 19.34 9.500
12744.6 0 116.5 19.37 1.077 9.500
1.5741E-13 112.8 19.29 9.500
Fit parameter 5 has pegged
12551.2 0 116.9 19.37 1.059 9.500
0.000 112.9 18.72 9.500
Fit parameter 5 has pegged
12510.1 0 117.0 19.37 1.051 9.500
0.000 113.1 18.70 9.500
Fit parameter 5 has pegged
12481.0 0 117.1 19.37 1.045 9.500
0.000 113.3 18.64 9.500
Fit parameter 5 has pegged
12459.5 0 117.2 19.37 1.041 9.500
0.000 113.5 18.58 9.500
Fit parameter 5 has pegged
12443.9 0 117.3 19.37 1.038 9.500
0.000 113.6 18.54 9.500
Fit parameter 5 has pegged
12432.3 0 117.3 19.37 1.035 9.500
0.000 113.7 18.49 9.500
Fit parameter 5 has pegged
12423.5 0 117.4 19.37 1.033 9.500
0.000 113.8 18.46 9.500
Fit parameter 5 has pegged
12416.2 0 117.4 19.37 1.031 9.500
0.000 113.9 18.43 9.500
Fit parameter 5 has pegged
12410.8 0 117.5 19.37 1.029 9.500
0.000 114.0 18.40 9.500
Fit parameter 5 has pegged
12405.4 0 117.5 19.37 1.028 9.500
0.000 114.0 18.38 9.500
Fit parameter 5 has pegged
12402.2 0 117.5 19.37 1.027 9.500
0.000 114.1 18.36 9.500
Fit parameter 5 has pegged
12399.7 0 117.5 19.37 1.026 9.500
0.000 114.1 18.35 9.500
Fit parameter 5 has pegged
12397.4 0 117.6 19.37 1.025 9.500
0.000 114.2 18.34 9.500
Fit parameter 5 has pegged
12395.6 0 117.6 19.37 1.024 9.500
0.000 114.2 18.33 9.500
Fit parameter 5 has pegged
12393.8 0 117.6 19.37 1.024 9.500
0.000 114.2 18.32 9.500
Fit parameter 5 has pegged
12392.3 0 117.6 19.37 1.023 9.500
0.000 114.2 18.31 9.500
Fit parameter 5 has pegged
12390.9 0 117.6 19.37 1.023 9.500
0.000 114.2 18.30 9.500
Fit parameter 5 has pegged
12389.9 0 117.6 19.37 1.022 9.500
0.000 114.3 18.30 9.500
Fit parameter 5 has pegged
12389.8 0 117.6 19.37 1.022 9.500
0.000 114.3 18.30 9.500
Fit parameter 5 has pegged
12389.4 0 117.6 19.37 1.022 9.500
0.000 114.3 18.29 9.500
Fit parameter 5 has pegged
12389.0 0 117.6 19.37 1.022 9.500
0.000 114.3 18.29 9.500
Fit parameter 5 has pegged
12388.5 0 117.6 19.37 1.022 9.500
0.000 114.3 18.29 9.500
Fit parameter 5 has pegged
12387.8 0 117.7 19.37 1.021 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12387.2 0 117.7 19.37 1.021 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12384.4 0 117.7 19.37 1.021 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12382.0 0 117.7 19.37 1.020 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12379.8 0 117.8 19.37 1.020 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12377.9 0 117.8 19.37 1.019 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12376.0 0 117.8 19.37 1.019 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12374.6 0 117.9 19.37 1.018 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12373.0 0 117.9 19.37 1.018 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12371.8 0 117.9 19.37 1.017 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12370.6 0 117.9 19.37 1.017 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12369.5 0 118.0 19.37 1.016 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12368.5 0 118.0 19.37 1.016 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12367.6 0 118.0 19.37 1.016 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12366.8 0 118.0 19.37 1.015 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12366.1 0 118.0 19.37 1.015 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12365.5 0 118.1 19.37 1.015 9.500
0.000 114.4 18.27 9.500
Fit parameter 5 has pegged
12364.8 0 118.1 19.37 1.014 9.500
0.000 114.4 18.26 9.500
Fit parameter 5 has pegged
12364.2 0 118.1 19.37 1.014 9.500
0.000 114.4 18.26 9.500
Fit parameter 5 has pegged
12363.7 0 118.1 19.37 1.014 9.500
0.000 114.4 18.26 9.500
Fit parameter 5 has pegged
12363.2 0 118.1 19.37 1.013 9.500
0.000 114.4 18.26 9.500
Fit parameter 5 has pegged
12362.8 0 118.1 19.37 1.013 9.500
0.000 114.4 18.26 9.500
Fit parameter 5 has pegged
12362.4 0 118.1 19.37 1.013 9.500
0.000 114.4 18.26 9.500
Fit parameter 5 has pegged
12362.0 0 118.1 19.37 1.013 9.500
0.000 114.4 18.25 9.500
Fit parameter 5 has pegged
12361.7 0 118.2 19.37 1.013 9.500
0.000 114.4 18.25 9.500
Fit parameter 5 has pegged
12361.3 0 118.2 19.37 1.012 9.500
0.000 114.4 18.25 9.500
Fit parameter 5 has pegged
12361.0 0 118.2 19.37 1.012 9.500
0.000 114.4 18.25 9.500
Fit parameter 5 has pegged
12360.7 0 118.2 19.37 1.012 9.500
0.000 114.4 18.25 9.500
Fit parameter 5 has pegged
12360.5 0 118.2 19.37 1.012 9.500
0.000 114.4 18.25 9.500
Fit parameter 5 has pegged
12360.2 0 118.2 19.37 1.011 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12360.0 0 118.2 19.37 1.011 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12359.7 0 118.2 19.37 1.011 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12359.5 0 118.2 19.37 1.011 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12359.4 0 118.2 19.37 1.011 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12359.2 0 118.2 19.37 1.011 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12359.0 0 118.2 19.37 1.011 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12358.9 0 118.2 19.37 1.010 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12358.8 0 118.3 19.37 1.010 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12358.6 0 118.3 19.37 1.010 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12358.4 0 118.3 19.37 1.010 9.500
0.000 114.5 18.23 9.500
Fit parameter 5 has pegged
12358.3 0 118.3 19.37 1.010 9.500
0.000 114.5 18.23 9.500
Fit parameter 5 has pegged
12358.2 0 118.3 19.37 1.010 9.500
0.000 114.5 18.23 9.500
Fit parameter 5 has pegged
12358.1 0 118.3 19.37 1.010 9.500
0.000 114.5 18.22 9.500
Fit parameter 5 has pegged
12358.0 0 118.3 19.37 1.009 9.500
0.000 114.5 18.22 9.500
Fit parameter 5 has pegged
12357.9 0 118.3 19.37 1.009 9.500
0.000 114.5 18.22 9.500
Fit parameter 5 has pegged
12357.8 0 118.3 19.37 1.009 9.500
0.000 114.5 18.22 9.500
Fit parameter 5 has pegged
12357.7 0 118.3 19.37 1.009 9.500
0.000 114.5 18.22 9.500
Fit parameter 5 has pegged
12357.7 0 118.3 19.37 1.009 9.500
0.000 114.5 18.22 9.500
Fit parameter 5 has pegged
12357.6 0 118.3 19.37 1.009 9.500
0.000 114.5 18.22 9.500
Fit parameter 5 has pegged
12357.5 0 118.3 19.37 1.009 9.500
0.000 114.5 18.21 9.500
Fit parameter 5 has pegged
12357.4 0 118.3 19.37 1.009 9.500
0.000 114.5 18.21 9.500
Fit parameter 5 has pegged
12357.3 0 118.3 19.37 1.009 9.500
0.000 114.5 18.21 9.500
Fit parameter 5 has pegged
12357.3 4 118.3 19.37 1.009 9.500
0.000 114.5 18.21 9.500
12357.1 0 118.3 19.37 1.009 9.500
0.000 114.5 18.22 9.500
Fit parameter 5 has pegged
12357.1 0 118.3 19.37 1.009 9.500
0.000 114.5 18.21 9.500
Fit parameter 5 has pegged
12357.0 0 118.3 19.37 1.008 9.500
0.000 114.5 18.21 9.500
Fit parameter 5 has pegged
12357.0 0 118.3 19.37 1.008 9.500
0.000 114.5 18.21 9.500
Fit parameter 5 has pegged
12356.9 0 118.3 19.37 1.008 9.500
0.000 114.5 18.21 9.500
Fit parameter 5 has pegged
12356.9 0 118.3 19.37 1.008 9.500
0.000 114.5 18.21 9.500
Fit parameter 5 has pegged
12356.8 0 118.3 19.37 1.008 9.500
0.000 114.5 18.21 9.500
Fit parameter 5 has pegged
12356.8 0 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
Fit parameter 5 has pegged
12356.7 0 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
Fit parameter 5 has pegged
12356.7 0 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
Fit parameter 5 has pegged
12356.6 0 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
Fit parameter 5 has pegged
12356.6 0 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
12356.5 0 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
Fit parameter 5 has pegged
12356.5 0 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
Fit parameter 5 has pegged
12356.4 0 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
Fit parameter 5 has pegged
12356.4 0 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
Fit parameter 5 has pegged
12356.4 1 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
12356.4 3 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
Fit parameter 5 has pegged
12356.4 6 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
12356.4 6 118.3 19.37 1.008 9.500
0.000 114.5 18.20 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.47E-05 | -0.01 0.00 -1.00 -0.01 0.00
9.61E-03 | 0.03 0.00 0.00 -0.72 -0.70
1.97E-02 | -0.99 -0.06 0.01 0.08 -0.13
5.12E-02 | 0.14 0.05 -0.01 0.69 -0.71
2.63E+00 | -0.07 1.00 0.00 -0.03 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.334 +/- 0.182158 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.61656 1
3 3 1 gaussian norm 1.00754 +/- 0.524505E-02 1
4 4 2 powerlaw PhoIndex 9.50002 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 114.550 +/- 0.178027 2
7 7 3 gaussian Sigma keV 18.1976 +/- 0.179944 2
8 3 3 gaussian norm 1.00754 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12356.36 using 198 PHA bins.
Reduced chi-squared = 65.03345 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 62.723) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 62.723) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8343 photons ( 1.6614E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7939 photons ( 1.5421E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:14 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.404 +/- 5.7271E-03
Net count rate (cts/s) for file 2 2.404 +/- 5.7271E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 699128.1 using 168 PHA bins.
Reduced chi-squared = 4369.550 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 22114.88 using 168 PHA bins.
Reduced chi-squared = 138.2180 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2863.36 -3 85.97 14.05 0.1356 0.9473
0.5193 85.97 13.55 0.9388
1434.92 -4 73.61 15.81 0.1630 0.8687
0.3872 74.76 14.91 0.8712
690.932 -1 78.60 8.731 0.1373 0.8654
0.4006 78.76 9.484 0.8642
591.264 -2 77.10 9.939 0.1415 0.8711
0.4123 78.09 10.18 0.8707
584.940 -3 77.08 9.524 0.1396 0.8852
0.4379 78.15 9.960 0.8846
583.045 -4 77.04 9.679 0.1413 0.8903
0.4480 78.17 9.951 0.8901
582.931 -5 77.07 9.632 0.1410 0.8904
0.4489 78.17 9.938 0.8904
582.927 -6 77.06 9.650 0.1412 0.8904
0.4489 78.17 9.946 0.8904
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.20E-07 | 0.00 0.00 -0.29 0.55 -0.58 0.00 0.00 0.53
1.05E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.41E-06 | 0.00 0.01 -0.96 -0.15 0.19 0.00 0.01 -0.16
4.75E-04 | 0.02 0.01 -0.02 -0.44 -0.80 0.02 0.01 -0.42
3.97E-02 | -0.13 -0.74 0.00 0.00 0.00 0.10 0.66 0.00
8.65E-02 | 0.26 -0.60 -0.01 0.00 0.00 0.33 -0.68 0.00
5.69E-02 | 0.90 -0.04 0.00 0.01 0.01 -0.39 0.19 0.01
6.21E-02 | 0.33 0.30 0.00 0.01 0.02 0.85 0.27 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0577 +/- 0.243139 1
2 2 1 gaussian Sigma keV 9.65003 +/- 0.242468 1
3 3 1 gaussian norm 0.141163 +/- 0.323394E-02 1
4 4 2 powerlaw PhoIndex 0.890427 +/- 0.102227E-01 1
5 5 2 powerlaw norm 0.448850 +/- 0.184545E-01 1
6 6 3 gaussian LineE keV 78.1687 +/- 0.252457 2
7 7 3 gaussian Sigma keV 9.94636 +/- 0.251945 2
8 3 3 gaussian norm 0.141163 = par 3 2
9 8 4 powerlaw PhoIndex 0.890391 +/- 0.981207E-02 2
10 5 4 powerlaw norm 0.448850 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 582.9273 using 168 PHA bins.
Reduced chi-squared = 3.643296 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.491) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.491) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9481 photons ( 1.1427E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9482 photons ( 1.1454E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
82.96234
=====best line=====
77.0567 0.243070
=====best sigma=====
9.65218 0.242397
=====norm=====
0.141178 0.323305E-02
=====phoindx=====
0.890425 0.102205E-01
=====pow_norm=====
0.448838 0.184502E-01
=====best line=====
78.1686 0.252749
=====best sigma=====
9.94678 0.252189
=====norm=====
0.141178 par
=====phoindx=====
0.890389 0.981012E-02
=====pow_norm=====
0.448838 par
=====redu_chi=====
3.643302
=====area_flux=====
0.9481
=====area_flux_f=====
0.9482
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 9 1 640 2000 1232.9072 0 0.141178 0.323305E-02 9.65218 0.242397 0.890425 0.102205E-01 0.448838 0.184502E-01 0.9481 640 2000 1250.6976 0 0.141178 0.323305E-02 9.94678 0.252189 0.890389 0.981012E-02 0.448838 0.184502E-01 0.9482 3.643302 1
=====redu_chi=====
416.8131
=====best line=====
118.334 0.182158
=====best sigma=====
19.3655 1.61656
=====norm=====
1.00754 0.524505E-02
=====phoindx=====
9.50002 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.550 0.178027
=====best sigma=====
18.1976 0.179944
=====norm=====
1.00754 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
65.03345
=====area_flux=====
0.8343
=====area_flux_f=====
0.7939
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 9 1 1600 3200 1893.344 0 1.00754 0.524505E-02 309.848 25.86496 9.50002 -1.00000 0.00000 -1.00000 0.8343 1600 3200 1832.8 0 1.00754 0.524505E-02 291.1616 2.879104 9.50000 -1.00000 0.00000 -1.00000 0.7939 65.03345 1
=====redu_chi=====
138.2180
=====best line=====
77.0577 0.243139
=====best sigma=====
9.65003 0.242468
=====norm=====
0.141163 0.323394E-02
=====phoindx=====
0.890427 0.102227E-01
=====pow_norm=====
0.448850 0.184545E-01
=====best line=====
78.1687 0.252457
=====best sigma=====
9.94636 0.251945
=====norm=====
0.141163 par
=====phoindx=====
0.890391 0.981207E-02
=====pow_norm=====
0.448850 par
=====redu_chi=====
3.643296
=====area_flux=====
0.9481
=====area_flux_f=====
0.9482
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 9 1 640 2000 1232.9232 0 0.141163 0.323394E-02 9.65003 0.242468 0.890427 0.102227E-01 0.448850 0.184545E-01 0.9481 640 2000 1250.6992 0 0.141163 0.323394E-02 9.94636 0.251945 0.890391 0.981207E-02 0.448850 0.184545E-01 0.9482 3.643296 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:14 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.471 +/- 5.8074E-03
Net count rate (cts/s) for file 2 2.471 +/- 5.8074E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 637410.0 using 168 PHA bins.
Reduced chi-squared = 3983.812 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17115.54 using 168 PHA bins.
Reduced chi-squared = 106.9721 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8632.49 -3 82.55 16.48 0.1868 1.071
0.6529 82.21 16.59 1.061
1344.28 -3 74.84 8.480 0.1212 0.8881
0.4844 73.55 8.472 0.8964
1251.68 -4 76.42 9.933 0.1494 1.007
0.6779 76.19 13.02 1.004
675.816 -5 76.83 8.924 0.1379 1.033
0.8108 76.73 9.542 1.032
624.659 -6 76.55 9.763 0.1509 1.033
0.8141 76.37 9.763 1.034
623.330 -7 76.68 9.438 0.1485 1.032
0.8142 76.41 9.626 1.033
623.088 -8 76.62 9.568 0.1497 1.032
0.8133 76.40 9.694 1.033
623.051 -9 76.64 9.516 0.1493 1.032
0.8135 76.40 9.665 1.033
623.044 -10 76.63 9.537 0.1495 1.032
0.8134 76.40 9.677 1.033
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.22E-07 | 0.00 0.00 -0.34 0.62 -0.36 0.00 0.00 0.60
1.07E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.50E-06 | 0.00 0.01 -0.94 -0.22 0.14 0.00 0.01 -0.22
1.16E-03 | 0.04 0.01 -0.01 -0.28 -0.92 0.04 0.01 -0.27
3.39E-02 | -0.14 -0.72 0.00 0.00 0.00 0.13 0.67 0.00
7.41E-02 | 0.31 -0.60 -0.01 0.00 0.01 0.36 -0.64 0.00
4.90E-02 | 0.86 -0.05 0.00 0.00 0.02 -0.45 0.21 0.00
5.10E-02 | 0.37 0.36 0.00 0.01 0.05 0.80 0.30 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.6335 +/- 0.226654 1
2 2 1 gaussian Sigma keV 9.53709 +/- 0.224572 1
3 3 1 gaussian norm 0.149456 +/- 0.316969E-02 1
4 4 2 powerlaw PhoIndex 1.03204 +/- 0.102251E-01 1
5 5 2 powerlaw norm 0.813395 +/- 0.333556E-01 1
6 6 3 gaussian LineE keV 76.3999 +/- 0.230764 2
7 7 3 gaussian Sigma keV 9.67727 +/- 0.229715 2
8 3 3 gaussian norm 0.149456 = par 3 2
9 8 4 powerlaw PhoIndex 1.03296 +/- 0.980457E-02 2
10 5 4 powerlaw norm 0.813395 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 623.0445 using 168 PHA bins.
Reduced chi-squared = 3.894028 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.731) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.731) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9497 photons ( 1.1300E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9466 photons ( 1.1257E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:14 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.906 +/- 8.9772E-03
Net count rate (cts/s) for file 2 5.906 +/- 8.9772E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.434 +/- 1.0692E-02( 58.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.434 +/- 1.0692E-02( 58.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.1299381E+07 using 198 PHA bins.
Reduced chi-squared = 59470.43 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 82940.00 using 198 PHA bins.
Reduced chi-squared = 436.5263 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
45579.6 -3 115.5 18.91 0.3571 2.822
0.1437 111.1 18.93 2.767
20481.1 -2 106.0 19.34 1.307 8.697
6.6130E-02 105.1 19.26 9.198
18860.2 0 107.8 19.36 1.275 9.442
3.1381E-02 106.6 19.33 9.499
17541.6 0 109.3 19.36 1.244 9.495
7.5425E-03 107.9 19.36 9.500
16503.5 0 110.7 19.36 1.215 9.499
3.0978E-03 109.1 19.36 9.500
15695.3 0 111.9 19.37 1.189 9.500
1.4727E-03 110.1 19.37 9.500
15107.8 0 112.9 19.37 1.167 9.500
4.7750E-04 110.9 19.37 9.500
14669.3 0 113.8 19.37 1.148 9.500
1.9105E-04 111.5 19.37 9.500
14358.5 0 114.5 19.37 1.131 9.500
3.8476E-05 112.1 19.37 9.500
14141.1 0 115.1 19.37 1.118 9.500
1.8339E-05 112.5 19.37 9.500
13987.2 0 115.6 19.37 1.106 9.500
8.0550E-06 112.8 19.37 9.500
13880.0 0 115.9 19.37 1.097 9.500
2.8151E-06 113.1 19.37 9.500
13703.6 0 116.7 19.37 1.076 9.500
2.5664E-08 113.5 19.37 9.500
13676.6 0 116.8 19.37 1.072 9.500
1.0397E-08 113.6 19.37 9.500
13659.4 0 116.9 19.37 1.069 9.500
2.7398E-09 113.7 19.37 9.500
13644.9 0 117.0 19.37 1.067 9.500
8.2293E-10 113.7 19.37 9.500
13635.9 0 117.1 19.37 1.065 9.500
3.4032E-10 113.8 19.37 9.500
13628.4 0 117.2 19.37 1.063 9.500
1.0024E-10 113.8 19.37 9.500
13622.0 0 117.2 19.37 1.062 9.500
3.9762E-11 113.8 19.37 9.500
13617.8 0 117.3 19.37 1.061 9.500
9.7331E-12 113.9 19.37 9.500
13614.6 0 117.3 19.37 1.060 9.500
2.1578E-12 113.9 19.37 9.500
13612.9 0 117.3 19.37 1.060 9.500
2.6706E-13 113.9 19.37 9.500
Fit parameter 5 has pegged
13587.2 0 117.3 19.37 1.055 9.500
0.000 113.7 19.25 9.500
Fit parameter 5 has pegged
13585.8 0 117.2 19.37 1.054 9.500
0.000 113.7 19.25 9.500
Fit parameter 5 has pegged
13584.2 0 117.2 19.37 1.053 9.500
0.000 113.6 19.25 9.500
Fit parameter 5 has pegged
13577.3 0 117.3 19.37 1.052 9.500
0.000 113.6 19.25 9.500
Fit parameter 5 has pegged
13571.1 0 117.3 19.37 1.050 9.500
0.000 113.6 19.25 9.500
Fit parameter 5 has pegged
13565.4 0 117.4 19.37 1.049 9.500
0.000 113.6 19.25 9.500
Fit parameter 5 has pegged
13560.4 0 117.4 19.37 1.048 9.500
0.000 113.6 19.25 9.500
Fit parameter 5 has pegged
13555.7 0 117.4 19.37 1.047 9.500
0.000 113.7 19.25 9.500
Fit parameter 5 has pegged
13551.4 0 117.5 19.37 1.046 9.500
0.000 113.7 19.25 9.500
Fit parameter 5 has pegged
13547.4 0 117.5 19.37 1.045 9.500
0.000 113.7 19.25 9.500
Fit parameter 5 has pegged
13543.9 0 117.6 19.37 1.044 9.500
0.000 113.7 19.25 9.500
Fit parameter 5 has pegged
13540.6 0 117.6 19.37 1.043 9.500
0.000 113.7 19.24 9.500
Fit parameter 5 has pegged
13537.5 0 117.6 19.37 1.043 9.500
0.000 113.7 19.24 9.500
Fit parameter 5 has pegged
13534.8 0 117.7 19.37 1.042 9.500
0.000 113.7 19.24 9.500
Fit parameter 5 has pegged
13532.2 0 117.7 19.37 1.041 9.500
0.000 113.7 19.24 9.500
Fit parameter 5 has pegged
13529.9 0 117.7 19.37 1.041 9.500
0.000 113.7 19.24 9.500
Fit parameter 5 has pegged
13527.6 0 117.8 19.37 1.040 9.500
0.000 113.7 19.23 9.500
Fit parameter 5 has pegged
13525.6 0 117.8 19.37 1.039 9.500
0.000 113.7 19.23 9.500
Fit parameter 5 has pegged
13523.8 0 117.8 19.37 1.039 9.500
0.000 113.7 19.23 9.500
Fit parameter 5 has pegged
13522.1 0 117.9 19.37 1.038 9.500
0.000 113.7 19.23 9.500
Fit parameter 5 has pegged
13520.4 0 117.9 19.37 1.038 9.500
0.000 113.7 19.23 9.500
Fit parameter 5 has pegged
13518.9 0 117.9 19.37 1.037 9.500
0.000 113.7 19.22 9.500
Fit parameter 5 has pegged
13517.6 0 117.9 19.37 1.037 9.500
0.000 113.7 19.22 9.500
Fit parameter 5 has pegged
13516.3 0 117.9 19.37 1.036 9.500
0.000 113.8 19.22 9.500
Fit parameter 5 has pegged
13515.1 0 118.0 19.37 1.036 9.500
0.000 113.8 19.22 9.500
Fit parameter 5 has pegged
13514.0 0 118.0 19.37 1.035 9.500
0.000 113.8 19.21 9.500
Fit parameter 5 has pegged
13512.9 0 118.0 19.37 1.035 9.500
0.000 113.8 19.21 9.500
Fit parameter 5 has pegged
13511.9 0 118.0 19.37 1.035 9.500
0.000 113.8 19.21 9.500
Fit parameter 5 has pegged
13510.9 0 118.0 19.37 1.034 9.500
0.000 113.8 19.20 9.500
Fit parameter 5 has pegged
13510.1 0 118.0 19.37 1.034 9.500
0.000 113.8 19.20 9.500
Fit parameter 5 has pegged
13509.2 0 118.1 19.37 1.034 9.500
0.000 113.8 19.20 9.500
Fit parameter 5 has pegged
13508.5 0 118.1 19.37 1.033 9.500
0.000 113.8 19.20 9.500
Fit parameter 5 has pegged
13507.8 0 118.1 19.37 1.033 9.500
0.000 113.8 19.19 9.500
Fit parameter 5 has pegged
13507.0 0 118.1 19.37 1.033 9.500
0.000 113.8 19.19 9.500
Fit parameter 5 has pegged
13506.4 0 118.1 19.37 1.032 9.500
0.000 113.8 19.19 9.500
Fit parameter 5 has pegged
13505.8 0 118.1 19.37 1.032 9.500
0.000 113.9 19.18 9.500
Fit parameter 5 has pegged
13505.2 0 118.1 19.37 1.032 9.500
0.000 113.9 19.18 9.500
Fit parameter 5 has pegged
13504.6 0 118.1 19.37 1.031 9.500
0.000 113.9 19.18 9.500
Fit parameter 5 has pegged
13504.1 0 118.2 19.37 1.031 9.500
0.000 113.9 19.18 9.500
Fit parameter 5 has pegged
13503.6 0 118.2 19.37 1.031 9.500
0.000 113.9 19.17 9.500
Fit parameter 5 has pegged
13503.1 0 118.2 19.37 1.031 9.500
0.000 113.9 19.17 9.500
Fit parameter 5 has pegged
13502.7 0 118.2 19.37 1.030 9.500
0.000 113.9 19.17 9.500
Fit parameter 5 has pegged
13502.2 0 118.2 19.37 1.030 9.500
0.000 113.9 19.16 9.500
Fit parameter 5 has pegged
13501.8 0 118.2 19.37 1.030 9.500
0.000 113.9 19.16 9.500
Fit parameter 5 has pegged
13501.4 0 118.2 19.37 1.030 9.500
0.000 113.9 19.16 9.500
Fit parameter 5 has pegged
13501.1 0 118.2 19.37 1.030 9.500
0.000 113.9 19.15 9.500
Fit parameter 5 has pegged
13500.6 0 118.2 19.37 1.029 9.500
0.000 113.9 19.15 9.500
Fit parameter 5 has pegged
13500.4 0 118.2 19.37 1.029 9.500
0.000 113.9 19.15 9.500
Fit parameter 5 has pegged
13500.0 0 118.2 19.37 1.029 9.500
0.000 113.9 19.15 9.500
Fit parameter 5 has pegged
13499.7 0 118.2 19.37 1.029 9.500
0.000 114.0 19.15 9.500
Fit parameter 5 has pegged
13499.4 0 118.2 19.37 1.029 9.500
0.000 114.0 19.14 9.500
Fit parameter 5 has pegged
13499.1 0 118.3 19.37 1.028 9.500
0.000 114.0 19.14 9.500
Fit parameter 5 has pegged
13498.9 0 118.3 19.37 1.028 9.500
0.000 114.0 19.14 9.500
Fit parameter 5 has pegged
13498.6 0 118.3 19.37 1.028 9.500
0.000 114.0 19.14 9.500
Fit parameter 5 has pegged
13498.4 0 118.3 19.37 1.028 9.500
0.000 114.0 19.13 9.500
Fit parameter 5 has pegged
13498.1 0 118.3 19.37 1.028 9.500
0.000 114.0 19.13 9.500
Fit parameter 5 has pegged
13498.0 0 118.3 19.37 1.028 9.500
0.000 114.0 19.13 9.500
Fit parameter 5 has pegged
13497.7 0 118.3 19.37 1.027 9.500
0.000 114.0 19.13 9.500
Fit parameter 5 has pegged
13497.5 0 118.3 19.37 1.027 9.500
0.000 114.0 19.13 9.500
Fit parameter 5 has pegged
13497.3 0 118.3 19.37 1.027 9.500
0.000 114.0 19.12 9.500
Fit parameter 5 has pegged
13497.1 0 118.3 19.37 1.027 9.500
0.000 114.0 19.12 9.500
Fit parameter 5 has pegged
13496.9 0 118.3 19.37 1.027 9.500
0.000 114.0 19.12 9.500
Fit parameter 5 has pegged
13496.7 0 118.3 19.37 1.027 9.500
0.000 114.0 19.12 9.500
Fit parameter 5 has pegged
13496.6 0 118.3 19.37 1.027 9.500
0.000 114.0 19.12 9.500
Fit parameter 5 has pegged
13496.5 0 118.3 19.37 1.026 9.500
0.000 114.0 19.11 9.500
Fit parameter 5 has pegged
13496.3 0 118.3 19.37 1.026 9.500
0.000 114.0 19.11 9.500
Fit parameter 5 has pegged
13496.1 0 118.3 19.37 1.026 9.500
0.000 114.0 19.11 9.500
Fit parameter 5 has pegged
13496.0 0 118.3 19.37 1.026 9.500
0.000 114.1 19.11 9.500
Fit parameter 5 has pegged
13495.9 0 118.3 19.37 1.026 9.500
0.000 114.1 19.11 9.500
Fit parameter 5 has pegged
13495.7 0 118.3 19.37 1.026 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
13495.6 0 118.3 19.37 1.026 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
13495.5 0 118.3 19.37 1.026 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
13495.4 0 118.3 19.37 1.026 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
13495.4 0 118.3 19.37 1.025 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
13495.2 0 118.3 19.37 1.025 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
13495.1 0 118.3 19.37 1.025 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
13495.0 0 118.3 19.37 1.025 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
13495.0 0 118.3 19.37 1.025 9.500
0.000 114.1 19.09 9.500
Fit parameter 5 has pegged
13494.8 0 118.3 19.37 1.025 9.500
0.000 114.1 19.09 9.500
Fit parameter 5 has pegged
13494.8 0 118.3 19.37 1.025 9.500
0.000 114.1 19.09 9.500
Fit parameter 5 has pegged
13494.7 0 118.4 19.37 1.025 9.500
0.000 114.1 19.09 9.500
Fit parameter 5 has pegged
13494.6 0 118.4 19.37 1.025 9.500
0.000 114.1 19.09 9.500
Fit parameter 5 has pegged
13494.6 0 118.4 19.37 1.025 9.500
0.000 114.1 19.09 9.500
Fit parameter 5 has pegged
13494.5 0 118.4 19.37 1.025 9.500
0.000 114.1 19.09 9.500
Fit parameter 5 has pegged
13494.5 0 118.4 19.37 1.025 9.500
0.000 114.1 19.09 9.500
Fit parameter 5 has pegged
13494.3 0 118.4 19.37 1.025 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13494.3 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13494.2 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13494.1 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13494.1 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13494.0 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13494.0 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13493.9 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13493.9 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13493.8 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13493.8 0 118.4 19.37 1.024 9.500
0.000 114.1 19.08 9.500
Fit parameter 5 has pegged
13493.7 0 118.4 19.37 1.024 9.500
0.000 114.1 19.07 9.500
Fit parameter 5 has pegged
13493.7 0 118.4 19.37 1.024 9.500
0.000 114.1 19.07 9.500
13493.5 0 118.4 19.37 1.024 9.500
0.000 114.2 19.08 9.500
Fit parameter 5 has pegged
13493.5 5 118.4 19.37 1.024 9.500
0.000 114.2 19.08 9.500
13493.5 5 118.4 19.37 1.024 9.500
0.000 114.2 19.08 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.45E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.64E-02 | 0.37 0.01 0.01 -0.92 -0.16
2.08E-02 | -0.93 -0.06 0.01 -0.36 -0.09
3.09E+00 | -0.06 0.99 0.00 -0.04 0.13
4.75E-01 | -0.02 -0.13 0.00 -0.18 0.97
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.382 +/- 0.176090 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.74038 1
3 3 1 gaussian norm 1.02380 +/- 0.546767E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 114.157 +/- 0.187979 2
7 7 3 gaussian Sigma keV 19.0765 +/- 0.708876 2
8 3 3 gaussian norm 1.02380 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13493.54 using 198 PHA bins.
Reduced chi-squared = 71.01864 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 68.495) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 68.495) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8484 photons ( 1.6899E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7893 photons ( 1.5384E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:14 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.471 +/- 5.8074E-03
Net count rate (cts/s) for file 2 2.471 +/- 5.8074E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 747065.7 using 168 PHA bins.
Reduced chi-squared = 4669.161 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 26272.68 using 168 PHA bins.
Reduced chi-squared = 164.2043 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
16240.5 -3 85.50 14.14 0.1302 1.111
0.7107 85.29 14.15 1.097
2895.87 -4 71.53 16.27 0.1803 0.9692
0.6654 70.41 16.30 0.9775
1868.60 -2 80.85 6.035 7.1965E-02 0.9993
0.7487 79.76 6.277 0.9995
965.317 -3 77.71 11.77 0.1245 1.037
0.8437 77.14 9.792 1.037
633.163 -4 76.58 9.692 0.1435 1.028
0.8080 76.30 9.353 1.030
623.231 -5 76.67 9.483 0.1493 1.032
0.8140 76.41 9.722 1.033
623.053 -6 76.63 9.547 0.1495 1.032
0.8132 76.40 9.671 1.033
623.045 -7 76.64 9.525 0.1494 1.032
0.8135 76.40 9.672 1.033
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.23E-07 | 0.00 0.00 -0.34 0.62 -0.36 0.00 0.00 0.60
1.07E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.51E-06 | 0.00 0.01 -0.94 -0.22 0.14 0.00 0.01 -0.22
1.16E-03 | 0.04 0.01 -0.01 -0.28 -0.92 0.04 0.01 -0.27
3.40E-02 | -0.14 -0.71 0.00 0.00 0.00 0.14 0.68 0.00
7.44E-02 | 0.32 -0.60 -0.01 0.00 0.01 0.36 -0.64 0.00
4.92E-02 | 0.84 -0.07 0.00 0.00 0.01 -0.51 0.20 0.00
5.11E-02 | 0.43 0.36 0.00 0.02 0.05 0.77 0.31 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.6389 +/- 0.227394 1
2 2 1 gaussian Sigma keV 9.52535 +/- 0.225354 1
3 3 1 gaussian norm 0.149354 +/- 0.317670E-02 1
4 4 2 powerlaw PhoIndex 1.03203 +/- 0.102310E-01 1
5 5 2 powerlaw norm 0.813462 +/- 0.333653E-01 1
6 6 3 gaussian LineE keV 76.4009 +/- 0.230632 2
7 7 3 gaussian Sigma keV 9.67230 +/- 0.229710 2
8 3 3 gaussian norm 0.149354 = par 3 2
9 8 4 powerlaw PhoIndex 1.03295 +/- 0.981019E-02 2
10 5 4 powerlaw norm 0.813462 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 623.0447 using 168 PHA bins.
Reduced chi-squared = 3.894030 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.731) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.731) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9497 photons ( 1.1300E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9466 photons ( 1.1257E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
106.9721
=====best line=====
76.6335 0.226654
=====best sigma=====
9.53709 0.224572
=====norm=====
0.149456 0.316969E-02
=====phoindx=====
1.03204 0.102251E-01
=====pow_norm=====
0.813395 0.333556E-01
=====best line=====
76.3999 0.230764
=====best sigma=====
9.67727 0.229715
=====norm=====
0.149456 par
=====phoindx=====
1.03296 0.980457E-02
=====pow_norm=====
0.813395 par
=====redu_chi=====
3.894028
=====area_flux=====
0.9497
=====area_flux_f=====
0.9466
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 10 1 640 2000 1226.136 0 0.149456 0.316969E-02 9.53709 0.224572 1.03204 0.102251E-01 0.813395 0.333556E-01 0.9497 640 2000 1222.3984 0 0.149456 0.316969E-02 9.67727 0.229715 1.03296 0.980457E-02 0.813395 0.333556E-01 0.9466 3.894028 1
=====redu_chi=====
436.5263
=====best line=====
118.382 0.176090
=====best sigma=====
19.3655 1.74038
=====norm=====
1.02380 0.546767E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.157 0.187979
=====best sigma=====
19.0765 0.708876
=====norm=====
1.02380 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
71.01864
=====area_flux=====
0.8484
=====area_flux_f=====
0.7893
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 10 1 1600 3200 1894.112 0 1.02380 0.546767E-02 309.848 27.84608 9.50000 -1.00000 0.00000 -1.00000 0.8484 1600 3200 1826.512 0 1.02380 0.546767E-02 305.224 11.342016 9.50000 -1.00000 0.00000 -1.00000 0.7893 71.01864 1
=====redu_chi=====
164.2043
=====best line=====
76.6389 0.227394
=====best sigma=====
9.52535 0.225354
=====norm=====
0.149354 0.317670E-02
=====phoindx=====
1.03203 0.102310E-01
=====pow_norm=====
0.813462 0.333653E-01
=====best line=====
76.4009 0.230632
=====best sigma=====
9.67230 0.229710
=====norm=====
0.149354 par
=====phoindx=====
1.03295 0.981019E-02
=====pow_norm=====
0.813462 par
=====redu_chi=====
3.894030
=====area_flux=====
0.9497
=====area_flux_f=====
0.9466
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 10 1 640 2000 1226.2224 0 0.149354 0.317670E-02 9.52535 0.225354 1.03203 0.102310E-01 0.813462 0.333653E-01 0.9497 640 2000 1222.4144 0 0.149354 0.317670E-02 9.67230 0.229710 1.03295 0.981019E-02 0.813462 0.333653E-01 0.9466 3.894030 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:15 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.830 +/- 6.2146E-03
Net count rate (cts/s) for file 2 2.830 +/- 6.2146E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 533176.2 using 168 PHA bins.
Reduced chi-squared = 3332.352 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17848.00 using 168 PHA bins.
Reduced chi-squared = 111.5500 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4383.97 -3 83.46 17.52 0.2444 0.9819
0.5696 83.44 17.24 0.9721
2054.77 -2 71.73 19.15 0.3432 0.9541
0.5133 73.92 19.23 0.9539
1996.20 0 71.92 19.29 0.3337 0.9526
0.5153 74.39 19.32 0.9518
1959.96 0 72.07 19.32 0.3255 0.9511
0.5170 74.69 19.35 0.9500
1933.57 0 72.18 19.21 0.3182 0.9497
0.5184 74.88 19.29 0.9485
1909.91 0 72.26 18.99 0.3113 0.9483
0.5197 75.02 19.11 0.9470
1885.37 0 72.31 18.70 0.3045 0.9470
0.5209 75.11 18.85 0.9457
1858.49 0 72.34 18.36 0.2977 0.9457
0.5220 75.17 18.54 0.9444
1828.42 0 72.36 17.98 0.2907 0.9444
0.5232 75.22 18.19 0.9430
1794.39 0 72.35 17.55 0.2835 0.9431
0.5244 75.25 17.81 0.9416
1755.56 0 72.34 17.10 0.2760 0.9417
0.5257 75.28 17.40 0.9402
1587.62 -1 72.93 9.842 0.2123 0.9292
0.5361 75.98 9.671 0.9273
686.011 -2 71.46 9.300 0.1509 0.8803
0.4710 75.04 9.709 0.8802
583.285 -2 70.82 8.381 0.1440 0.8526
0.4214 74.53 9.258 0.8524
538.828 -2 70.54 8.455 0.1452 0.8317
0.3856 74.33 9.302 0.8313
512.885 -2 70.47 8.399 0.1447 0.8156
0.3605 74.23 9.273 0.8151
499.377 -3 70.23 8.492 0.1462 0.7732
0.2970 73.95 9.366 0.7737
474.075 -4 70.17 8.463 0.1462 0.7597
0.2835 73.86 9.354 0.7589
473.972 -5 70.16 8.462 0.1462 0.7598
0.2833 73.85 9.353 0.7585
473.971 -6 70.16 8.462 0.1462 0.7598
0.2833 73.85 9.353 0.7585
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.72E-07 | 0.00 0.00 -0.20 0.45 -0.75 0.00 0.00 0.44
9.32E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.39E-06 | 0.00 0.01 -0.98 -0.09 0.15 0.00 0.01 -0.10
2.57E-04 | 0.02 -0.01 0.01 -0.55 -0.64 0.02 0.00 -0.53
3.19E-02 | -0.17 -0.82 0.00 0.00 0.00 0.03 0.54 0.00
4.30E-02 | 0.95 -0.02 0.00 0.01 0.01 -0.12 0.28 0.01
7.41E-02 | 0.25 -0.48 -0.01 0.01 0.01 0.50 -0.68 0.01
5.25E-02 | 0.00 -0.31 0.00 -0.01 -0.01 -0.86 -0.41 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 70.1598 +/- 0.211195 1
2 2 1 gaussian Sigma keV 8.46167 +/- 0.208777 1
3 3 1 gaussian norm 0.146233 +/- 0.321714E-02 1
4 4 2 powerlaw PhoIndex 0.759780 +/- 0.951115E-02 1
5 5 2 powerlaw norm 0.283306 +/- 0.111975E-01 1
6 6 3 gaussian LineE keV 73.8510 +/- 0.239971 2
7 7 3 gaussian Sigma keV 9.35296 +/- 0.235824 2
8 3 3 gaussian norm 0.146233 = par 3 2
9 8 4 powerlaw PhoIndex 0.758525 +/- 0.911914E-02 2
10 5 4 powerlaw norm 0.283306 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 473.9714 using 168 PHA bins.
Reduced chi-squared = 2.962321 for 160 degrees of freedom
Null hypothesis probability = 8.028E-33
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.838) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.838) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.036 photons ( 1.2468E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.041 photons ( 1.2614E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:15 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.000 +/- 9.7736E-03
Net count rate (cts/s) for file 2 7.000 +/- 9.7736E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.170 +/- 1.1582E-02( 59.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.170 +/- 1.1582E-02( 59.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.8029198E+07 using 198 PHA bins.
Reduced chi-squared = 94890.52 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 79021.92 using 198 PHA bins.
Reduced chi-squared = 415.9048 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
52819.4 -3 85.74 18.76 0.4674 2.594
7.8436E-02 102.4 18.94 2.546
51685.7 1 86.53 19.27 0.4788 1.478
0.2550 102.6 18.91 2.465
41296.6 0 93.12 19.36 0.5751 1.489
0.2416 104.5 18.58 2.685
22894.6 0 112.8 19.36 0.9340 1.555
0.1651 109.0 8.813 7.443
22602.2 1 112.8 19.33 0.9330 1.560
0.1610 109.1 8.854 9.025
22322.0 1 112.8 19.31 0.9321 1.565
0.1569 109.1 8.895 9.421
20156.7 0 112.6 19.01 0.9257 1.606
0.1255 109.1 9.265 9.465
12869.8 0 112.8 13.34 0.9373 1.756
3.3509E-02 109.3 15.98 9.486
9352.87 -1 111.1 16.96 1.146 1.915
3.5435E-02 110.8 16.74 9.498
8374.20 -2 111.0 18.33 1.170 3.541
6.4230E-03 110.6 16.40 9.499
8296.31 -1 111.8 18.27 1.144 9.366
2.8775E-03 110.9 16.29 9.500
8121.50 0 111.8 18.27 1.137 9.454
1.2814E-03 110.8 16.14 9.500
8081.41 0 111.8 18.25 1.133 9.500
1.3444E-04 110.8 16.09 9.500
8064.79 0 111.9 18.22 1.130 9.500
4.9507E-05 110.9 16.06 9.500
8053.35 0 111.9 18.20 1.127 9.500
6.8706E-06 111.0 16.03 9.500
7984.90 0 112.0 18.18 1.122 9.500
6.7815E-07 111.0 15.91 9.500
7967.55 0 112.1 18.16 1.120 9.500
2.5603E-07 111.0 15.86 9.500
7959.26 0 112.1 18.15 1.118 9.500
4.6098E-08 111.1 15.83 9.500
7925.06 0 112.1 18.02 1.114 9.500
5.4715E-09 111.2 15.81 9.500
7916.46 0 112.1 17.98 1.112 9.500
1.8745E-09 111.3 15.80 9.500
7911.40 0 112.2 17.95 1.110 9.500
8.1760E-11 111.3 15.78 9.500
7907.44 0 112.2 17.93 1.109 9.500
2.5860E-11 111.4 15.77 9.500
7904.12 0 112.3 17.92 1.107 9.500
1.1915E-11 111.4 15.75 9.500
7901.39 0 112.3 17.90 1.106 9.500
4.9534E-12 111.4 15.74 9.500
7899.15 0 112.3 17.89 1.105 9.500
1.4775E-12 111.5 15.73 9.500
7896.86 0 112.4 17.88 1.104 9.500
6.0984E-13 111.5 15.72 9.500
7895.11 0 112.4 17.87 1.103 9.500
1.7653E-13 111.5 15.71 9.500
Fit parameter 5 has pegged
7811.83 -1 112.7 17.42 1.084 9.500
0.000 111.7 15.22 9.500
Fit parameter 5 has pegged
7798.41 -2 112.7 17.58 1.083 9.500
0.000 111.7 15.37 9.500
Fit parameter 5 has pegged
7795.69 -3 112.9 17.43 1.075 9.500
0.000 111.9 15.23 9.500
Fit parameter 5 has pegged
7794.82 -4 112.8 17.51 1.078 9.500
0.000 111.8 15.30 9.500
Fit parameter 5 has pegged
7794.49 -5 112.9 17.47 1.076 9.500
0.000 111.9 15.25 9.500
Fit parameter 5 has pegged
7794.38 -6 112.9 17.49 1.077 9.500
0.000 111.9 15.28 9.500
Fit parameter 5 has pegged
7794.28 -7 112.9 17.47 1.077 9.500
0.000 111.9 15.27 9.500
Fit parameter 5 has pegged
7794.27 -2 112.9 17.49 1.077 9.500
0.000 111.9 15.28 9.500
Fit parameter 5 has pegged
7794.25 0 112.9 17.48 1.077 9.500
0.000 111.9 15.27 9.500
Fit parameter 5 has pegged
7794.25 3 112.9 17.48 1.077 9.500
0.000 111.9 15.27 9.500
7794.24 2 112.9 17.48 1.077 9.500
0.000 111.9 15.27 9.500
Fit parameter 5 has pegged
7794.24 3 112.9 17.48 1.077 9.500
0.000 111.9 15.27 9.500
7794.24 3 112.9 17.48 1.077 9.500
0.000 111.9 15.27 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.60E-05 | -0.01 0.01 -1.00 -0.01 0.04
2.80E-04 | 0.01 -0.01 0.03 0.12 0.99
3.59E-03 | -0.40 -0.92 0.00 -0.02 0.00
4.21E-02 | 0.81 -0.36 -0.02 0.46 -0.06
1.74E-02 | 0.43 -0.17 0.01 -0.88 0.10
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 112.859 +/- 0.176846 1
2 2 1 gaussian Sigma keV 17.4848 +/- 0.953155E-01 1
3 3 1 gaussian norm 1.07703 +/- 0.583508E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 111.869 +/- 0.149719 2
7 7 3 gaussian Sigma keV 15.2733 +/- 0.247588E-01 2
8 3 3 gaussian norm 1.07703 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 7794.236 using 198 PHA bins.
Reduced chi-squared = 41.02229 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 39.565) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 39.565) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.8281 photons ( 1.5893E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8415 photons ( 1.5861E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:15 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.830 +/- 6.2146E-03
Net count rate (cts/s) for file 2 2.830 +/- 6.2146E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 652394.6 using 168 PHA bins.
Reduced chi-squared = 4077.466 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 29818.21 using 168 PHA bins.
Reduced chi-squared = 186.3638 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4502.23 -3 86.87 15.01 0.1215 0.8667
0.4711 86.24 14.48 0.8557
2700.98 -4 65.02 19.12 0.2721 0.8961
0.4470 67.43 18.67 0.8934
1863.79 0 69.14 17.83 0.2619 0.8959
0.4444 71.55 18.68 0.8939
1523.49 0 70.75 15.85 0.2560 0.8952
0.4437 73.51 14.66 0.8935
838.482 -1 72.36 9.696 0.1782 0.8826
0.4570 75.07 11.10 0.8797
596.320 -2 71.01 8.740 0.1429 0.8494
0.4168 74.74 9.882 0.8489
535.459 -2 70.59 8.372 0.1438 0.8296
0.3828 74.37 9.165 0.8292
510.827 -2 70.45 8.437 0.1452 0.8141
0.3580 74.20 9.312 0.8135
496.102 -3 70.24 8.477 0.1460 0.7728
0.2969 73.95 9.353 0.7733
474.077 -4 70.16 8.469 0.1463 0.7596
0.2834 73.85 9.358 0.7588
473.972 -5 70.16 8.460 0.1462 0.7598
0.2833 73.85 9.352 0.7585
473.971 -6 70.16 8.462 0.1462 0.7598
0.2833 73.85 9.353 0.7585
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.72E-07 | 0.00 0.00 -0.20 0.45 -0.75 0.00 0.00 0.44
9.32E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.39E-06 | 0.00 0.01 -0.98 -0.09 0.15 0.00 0.01 -0.10
2.57E-04 | 0.02 -0.01 0.01 -0.55 -0.64 0.02 0.00 -0.53
3.19E-02 | -0.17 -0.82 0.00 0.00 0.00 0.03 0.54 0.00
4.30E-02 | 0.95 -0.02 0.00 0.01 0.01 -0.12 0.28 0.01
7.41E-02 | 0.25 -0.48 -0.01 0.01 0.01 0.50 -0.68 0.01
5.25E-02 | 0.00 -0.31 0.00 -0.01 -0.01 -0.86 -0.41 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 70.1594 +/- 0.211154 1
2 2 1 gaussian Sigma keV 8.46229 +/- 0.208730 1
3 3 1 gaussian norm 0.146240 +/- 0.321644E-02 1
4 4 2 powerlaw PhoIndex 0.759773 +/- 0.951048E-02 1
5 5 2 powerlaw norm 0.283297 +/- 0.111976E-01 1
6 6 3 gaussian LineE keV 73.8510 +/- 0.239951 2
7 7 3 gaussian Sigma keV 9.35335 +/- 0.235800 2
8 3 3 gaussian norm 0.146240 = par 3 2
9 8 4 powerlaw PhoIndex 0.758519 +/- 0.911851E-02 2
10 5 4 powerlaw norm 0.283297 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 473.9713 using 168 PHA bins.
Reduced chi-squared = 2.962320 for 160 degrees of freedom
Null hypothesis probability = 8.028E-33
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.838) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.838) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.036 photons ( 1.2468E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.041 photons ( 1.2614E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
111.5500
=====best line=====
70.1598 0.211195
=====best sigma=====
8.46167 0.208777
=====norm=====
0.146233 0.321714E-02
=====phoindx=====
0.759780 0.951115E-02
=====pow_norm=====
0.283306 0.111975E-01
=====best line=====
73.8510 0.239971
=====best sigma=====
9.35296 0.235824
=====norm=====
0.146233 par
=====phoindx=====
0.758525 0.911914E-02
=====pow_norm=====
0.283306 par
=====redu_chi=====
2.962321
=====area_flux=====
1.036
=====area_flux_f=====
1.041
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 11 1 640 2000 1122.5568 0 0.146233 0.321714E-02 8.46167 0.208777 0.759780 0.951115E-02 0.283306 0.111975E-01 1.036 640 2000 1181.616 0 0.146233 0.321714E-02 9.35296 0.235824 0.758525 0.911914E-02 0.283306 0.111975E-01 1.041 2.962321 0
=====redu_chi=====
415.9048
=====best line=====
112.859 0.176846
=====best sigma=====
17.4848 0.953155E-01
=====norm=====
1.07703 0.583508E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.869 0.149719
=====best sigma=====
15.2733 0.247588E-01
=====norm=====
1.07703 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
41.02229
=====area_flux=====
0.8281
=====area_flux_f=====
0.8415
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 11 1 1600 3200 1805.744 0 1.07703 0.583508E-02 279.7568 1.525048 9.50000 -1.00000 0.00000 -1.00000 0.8281 1600 3200 1789.904 0 1.07703 0.583508E-02 244.3728 0.3961408 9.50000 -1.00000 0.00000 -1.00000 0.8415 41.02229 1
=====redu_chi=====
186.3638
=====best line=====
70.1594 0.211154
=====best sigma=====
8.46229 0.208730
=====norm=====
0.146240 0.321644E-02
=====phoindx=====
0.759773 0.951048E-02
=====pow_norm=====
0.283297 0.111976E-01
=====best line=====
73.8510 0.239951
=====best sigma=====
9.35335 0.235800
=====norm=====
0.146240 par
=====phoindx=====
0.758519 0.911851E-02
=====pow_norm=====
0.283297 par
=====redu_chi=====
2.962320
=====area_flux=====
1.036
=====area_flux_f=====
1.041
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 11 1 640 2000 1122.5504 0 0.146240 0.321644E-02 8.46229 0.208730 0.759773 0.951048E-02 0.283297 0.111976E-01 1.036 640 2000 1181.616 0 0.146240 0.321644E-02 9.35335 0.235800 0.758519 0.911851E-02 0.283297 0.111976E-01 1.041 2.962320 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:15 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.518 +/- 5.8615E-03
Net count rate (cts/s) for file 2 2.518 +/- 5.8615E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 554746.7 using 168 PHA bins.
Reduced chi-squared = 3467.167 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10904.61 using 168 PHA bins.
Reduced chi-squared = 68.15379 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2034.60 -3 84.41 15.22 0.1612 0.8571
0.4026 84.65 14.53 0.8565
1487.96 -3 78.50 8.275 7.3524E-02 0.7796
0.2996 79.98 8.535 0.7828
1421.22 -4 79.58 11.88 0.1403 0.8682
0.3964 81.77 15.26 0.8668
1172.30 -5 80.52 9.200 8.6514E-02 0.8427
0.4021 81.71 7.158 0.8451
999.904 -6 78.86 9.663 0.1390 0.8786
0.4364 81.26 14.16 0.8792
714.160 -7 79.75 8.129 0.1178 0.8677
0.4290 81.78 8.809 0.8691
688.024 -8 79.21 9.842 0.1433 0.8829
0.4439 81.22 11.10 0.8843
652.133 -9 79.67 8.791 0.1323 0.8753
0.4363 81.43 9.813 0.8770
637.130 -10 79.36 9.507 0.1415 0.8808
0.4414 81.26 9.730 0.8824
636.022 -11 79.54 9.204 0.1394 0.8801
0.4413 81.29 9.659 0.8818
635.755 -12 79.45 9.352 0.1407 0.8807
0.4417 81.27 9.735 0.8824
635.692 -13 79.49 9.277 0.1400 0.8803
0.4413 81.28 9.684 0.8820
635.673 -14 79.47 9.316 0.1404 0.8805
0.4415 81.28 9.714 0.8822
635.668 -15 79.48 9.295 0.1402 0.8804
0.4414 81.28 9.698 0.8821
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.99E-07 | 0.00 0.00 -0.28 0.55 -0.58 0.00 0.00 0.52
1.02E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.09E-06 | 0.00 0.01 -0.96 -0.14 0.19 0.00 0.01 -0.15
4.74E-04 | 0.02 0.01 -0.02 -0.44 -0.79 0.02 0.01 -0.42
3.70E-02 | -0.11 -0.75 0.00 0.00 0.00 0.08 0.65 0.00
7.76E-02 | -0.17 0.62 0.01 0.01 0.01 -0.25 0.73 0.01
5.20E-02 | 0.93 -0.05 0.00 0.01 0.01 -0.33 0.14 0.01
5.86E-02 | -0.30 -0.22 0.00 -0.01 -0.02 -0.91 -0.19 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.4817 +/- 0.230384 1
2 2 1 gaussian Sigma keV 9.29525 +/- 0.231787 1
3 3 1 gaussian norm 0.140207 +/- 0.317617E-02 1
4 4 2 powerlaw PhoIndex 0.880353 +/- 0.104083E-01 1
5 5 2 powerlaw norm 0.441379 +/- 0.182950E-01 1
6 6 3 gaussian LineE keV 81.2784 +/- 0.242610 2
7 7 3 gaussian Sigma keV 9.69754 +/- 0.243920 2
8 3 3 gaussian norm 0.140207 = par 3 2
9 8 4 powerlaw PhoIndex 0.882093 +/- 0.999383E-02 2
10 5 4 powerlaw norm 0.441379 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 635.6680 using 168 PHA bins.
Reduced chi-squared = 3.972925 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.806) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.806) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9685 photons ( 1.1737E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9624 photons ( 1.1702E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:15 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.026 +/- 9.0685E-03
Net count rate (cts/s) for file 2 6.026 +/- 9.0685E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.509 +/- 1.0798E-02( 58.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.509 +/- 1.0798E-02( 58.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 6012839. using 198 PHA bins.
Reduced chi-squared = 31646.52 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 93341.00 using 198 PHA bins.
Reduced chi-squared = 491.2684 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
50514.9 -3 117.2 19.29 0.4321 2.910
0.2905 113.8 19.23 2.876
50306.5 2 117.3 19.28 0.4328 2.162
0.9129 113.8 19.23 2.611
49401.1 1 117.5 19.19 0.4397 2.128
1.091 114.2 19.16 2.425
41590.2 0 119.5 17.62 0.5003 1.953
2.247 116.9 18.22 2.008
23140.5 0 123.1 18.70 0.7704 1.908
2.338 123.5 18.70 2.058
18096.0 -1 120.5 19.34 1.210 1.980
1.100 120.3 19.18 2.716
17661.9 0 120.7 19.36 1.193 2.054
0.6968 120.5 19.34 8.571
17472.5 0 121.0 19.36 1.182 2.147
0.4691 120.6 19.36 9.313
17356.6 0 121.2 19.36 1.175 2.274
0.3388 120.8 19.36 9.437
17279.7 0 121.3 19.37 1.171 2.510
0.2993 120.9 19.37 9.480
17220.2 0 121.5 19.37 1.167 3.392
0.3521 121.0 19.37 9.496
17203.1 2 121.5 19.37 1.167 2.317
2.547 121.0 19.37 9.499
17194.7 1 121.5 19.37 1.167 2.315
2.579 121.0 19.37 9.499
17129.9 0 121.6 19.37 1.161 2.301
2.772 121.1 19.37 9.500
17127.1 0 121.6 19.37 1.162 2.390
1.976 121.1 19.37 9.500
17115.5 0 121.7 19.37 1.161 2.531
1.325 121.2 19.37 9.500
17105.8 0 121.8 19.37 1.161 2.839
0.8718 121.2 19.37 9.500
17097.5 0 121.8 19.37 1.160 3.969
4.459 121.2 19.37 9.500
17097.4 3 121.8 19.37 1.160 3.750
6.893 121.2 19.37 9.500
17095.5 2 121.8 19.37 1.160 3.351
29.37 121.2 19.37 9.500
17087.1 1 121.8 19.37 1.160 3.255
40.91 121.2 19.37 9.500
17012.3 0 121.9 19.37 1.154 2.955
108.3 121.3 19.37 9.500
16963.2 0 122.0 19.37 1.150 2.947
113.1 121.3 19.37 9.500
16919.8 0 122.1 19.37 1.145 2.941
117.4 121.3 19.37 9.500
16881.2 0 122.1 19.37 1.141 2.935
121.6 121.4 19.37 9.500
16846.9 0 122.2 19.37 1.137 2.931
125.2 121.4 19.37 9.500
16816.1 0 122.3 19.37 1.134 2.927
128.6 121.4 19.37 9.500
16788.8 0 122.3 19.37 1.131 2.924
131.6 121.5 19.37 9.500
16742.3 0 122.4 19.37 1.125 2.919
137.2 121.5 19.37 9.500
16722.5 0 122.5 19.37 1.122 2.918
139.5 121.5 19.37 9.500
16704.6 0 122.6 19.37 1.120 2.916
141.7 121.6 19.37 9.500
16688.5 0 122.6 19.37 1.118 2.915
143.5 121.6 19.37 9.500
16673.9 0 122.7 19.37 1.115 2.914
145.3 121.6 19.37 9.500
16660.7 0 122.7 19.37 1.113 2.914
146.7 121.6 19.37 9.500
16648.8 0 122.8 19.37 1.112 2.913
148.4 121.7 19.37 9.500
16637.8 0 122.8 19.37 1.110 2.913
149.9 121.7 19.37 9.500
16627.8 0 122.9 19.37 1.108 2.913
151.1 121.7 19.37 9.500
16618.6 0 122.9 19.37 1.107 2.913
152.4 121.7 19.37 9.500
16610.3 0 123.0 19.37 1.106 2.913
154.0 121.8 19.37 9.500
16602.7 0 123.0 19.37 1.104 2.913
155.6 121.8 19.37 9.500
16595.8 0 123.0 19.37 1.103 2.913
156.1 121.8 19.37 9.500
16589.3 0 123.1 19.37 1.102 2.913
157.1 121.8 19.37 9.500
16583.5 0 123.1 19.37 1.101 2.914
158.0 121.8 19.37 9.500
16578.1 0 123.2 19.37 1.100 2.914
159.0 121.8 19.37 9.500
16573.2 0 123.2 19.37 1.099 2.915
160.2 121.9 19.37 9.500
16568.6 0 123.2 19.37 1.098 2.915
161.1 121.9 19.37 9.500
16564.5 0 123.3 19.37 1.097 2.916
161.8 121.9 19.37 9.500
16560.6 0 123.3 19.37 1.097 2.917
162.7 121.9 19.37 9.500
16557.0 0 123.3 19.37 1.096 2.917
163.4 121.9 19.37 9.500
16553.7 0 123.4 19.37 1.095 2.918
164.2 121.9 19.37 9.500
16550.6 0 123.4 19.37 1.094 2.919
165.3 121.9 19.37 9.500
16547.7 0 123.4 19.37 1.094 2.920
166.3 122.0 19.37 9.500
16545.1 0 123.4 19.37 1.093 2.921
167.5 122.0 19.37 9.500
16542.7 0 123.5 19.37 1.093 2.922
168.0 122.0 19.37 9.500
16540.5 0 123.5 19.37 1.092 2.923
168.5 122.0 19.37 9.500
16538.3 0 123.5 19.37 1.092 2.924
169.4 122.0 19.37 9.500
16536.4 0 123.5 19.37 1.091 2.925
170.0 122.0 19.37 9.500
16534.6 0 123.6 19.37 1.091 2.925
170.6 122.0 19.37 9.500
16532.9 0 123.6 19.37 1.091 2.926
171.8 122.0 19.37 9.500
16531.3 0 123.6 19.37 1.090 2.927
172.4 122.0 19.37 9.500
16529.8 0 123.6 19.37 1.090 2.928
173.2 122.0 19.37 9.500
16528.5 0 123.6 19.37 1.090 2.930
173.5 122.0 19.37 9.500
16527.2 0 123.7 19.37 1.089 2.931
174.5 122.1 19.37 9.500
16525.9 0 123.7 19.37 1.089 2.932
175.0 122.1 19.37 9.500
16524.8 0 123.7 19.37 1.089 2.933
175.9 122.1 19.37 9.500
16523.8 0 123.7 19.37 1.088 2.933
176.9 122.1 19.37 9.500
16522.8 0 123.7 19.37 1.088 2.934
177.6 122.1 19.37 9.500
16521.8 0 123.7 19.37 1.088 2.935
178.8 122.1 19.37 9.500
16521.1 0 123.7 19.37 1.088 2.937
179.6 122.1 19.37 9.500
16520.2 0 123.8 19.37 1.087 2.938
180.9 122.1 19.37 9.500
16519.4 0 123.8 19.37 1.087 2.939
181.5 122.1 19.37 9.500
16518.7 0 123.8 19.37 1.087 2.940
182.7 122.1 19.37 9.500
16518.0 0 123.8 19.37 1.087 2.941
183.6 122.1 19.37 9.500
16517.4 0 123.8 19.37 1.087 2.942
184.5 122.1 19.37 9.500
16516.7 0 123.8 19.37 1.087 2.943
185.8 122.1 19.37 9.500
16516.2 0 123.8 19.37 1.086 2.944
187.1 122.1 19.37 9.500
16515.6 0 123.8 19.37 1.086 2.946
188.5 122.1 19.37 9.500
16515.1 0 123.8 19.37 1.086 2.947
189.0 122.1 19.37 9.500
16514.6 0 123.9 19.37 1.086 2.948
189.8 122.1 19.37 9.500
16514.2 0 123.9 19.37 1.086 2.949
190.2 122.1 19.37 9.500
16513.8 0 123.9 19.37 1.086 2.950
191.3 122.1 19.37 9.500
16513.3 0 123.9 19.37 1.086 2.951
192.5 122.1 19.37 9.500
16513.0 0 123.9 19.37 1.085 2.952
193.4 122.1 19.37 9.500
16512.6 0 123.9 19.37 1.085 2.953
194.4 122.1 19.37 9.500
16512.3 0 123.9 19.37 1.085 2.954
195.3 122.1 19.37 9.500
16511.9 0 123.9 19.37 1.085 2.955
196.2 122.2 19.37 9.500
16511.7 0 123.9 19.37 1.085 2.956
197.3 122.2 19.37 9.500
16511.4 0 123.9 19.37 1.085 2.958
198.1 122.2 19.37 9.500
16511.1 0 123.9 19.37 1.085 2.958
198.8 122.2 19.37 9.500
16510.8 0 123.9 19.37 1.085 2.959
200.0 122.2 19.37 9.500
16510.5 0 123.9 19.37 1.085 2.961
201.5 122.2 19.37 9.500
16510.3 0 123.9 19.37 1.085 2.962
202.8 122.2 19.37 9.500
16510.0 0 123.9 19.37 1.085 2.963
203.8 122.2 19.37 9.500
16509.8 0 123.9 19.37 1.084 2.964
205.2 122.2 19.37 9.500
16509.5 0 124.0 19.37 1.084 2.965
206.8 122.2 19.37 9.500
16509.3 0 124.0 19.37 1.084 2.966
208.5 122.2 19.37 9.500
16509.1 0 124.0 19.37 1.084 2.967
209.6 122.2 19.37 9.500
16508.9 0 124.0 19.37 1.084 2.968
211.3 122.2 19.37 9.500
16508.7 0 124.0 19.37 1.084 2.969
212.9 122.2 19.37 9.500
16508.4 0 124.0 19.37 1.084 2.970
214.2 122.2 19.37 9.500
16508.3 0 124.0 19.37 1.084 2.972
215.2 122.2 19.37 9.500
16508.2 0 124.0 19.37 1.084 2.973
216.2 122.2 19.37 9.500
16508.0 0 124.0 19.37 1.084 2.974
217.4 122.2 19.37 9.500
16507.9 0 124.0 19.37 1.084 2.975
217.6 122.2 19.37 9.500
16507.8 0 124.0 19.37 1.084 2.976
218.7 122.2 19.37 9.500
16507.7 0 124.0 19.37 1.084 2.977
219.4 122.2 19.37 9.500
16507.5 0 124.0 19.37 1.084 2.978
221.2 122.2 19.37 9.500
16507.3 0 124.0 19.37 1.084 2.979
222.5 122.2 19.37 9.500
16507.2 0 124.0 19.37 1.084 2.980
224.5 122.2 19.37 9.500
16507.1 0 124.0 19.37 1.084 2.981
225.7 122.2 19.37 9.500
16506.9 0 124.0 19.37 1.084 2.983
227.2 122.2 19.37 9.500
16506.8 0 124.0 19.37 1.084 2.984
228.6 122.2 19.37 9.500
16506.7 0 124.0 19.37 1.084 2.985
230.0 122.2 19.37 9.500
16506.5 0 124.0 19.37 1.084 2.986
231.6 122.2 19.37 9.500
16506.4 0 124.0 19.37 1.084 2.987
232.7 122.2 19.37 9.500
16506.4 0 124.0 19.37 1.084 2.988
233.0 122.2 19.37 9.500
16506.3 0 124.0 19.37 1.084 2.989
233.9 122.2 19.37 9.500
16506.2 0 124.0 19.37 1.084 2.990
235.6 122.2 19.37 9.500
16506.1 0 124.0 19.37 1.084 2.991
237.6 122.2 19.37 9.500
16506.1 0 124.0 19.37 1.084 2.992
238.4 122.2 19.37 9.500
16506.0 0 124.0 19.37 1.083 2.993
239.5 122.2 19.37 9.500
16505.9 0 124.0 19.37 1.083 2.994
240.8 122.2 19.37 9.500
16505.9 0 124.0 19.37 1.083 2.995
241.2 122.2 19.37 9.500
16505.8 0 124.0 19.37 1.083 2.996
242.5 122.2 19.37 9.500
16505.6 0 124.0 19.37 1.083 2.997
244.2 122.2 19.37 9.500
16505.5 0 124.0 19.37 1.083 2.998
246.2 122.2 19.37 9.500
16505.5 0 124.0 19.37 1.083 2.999
247.1 122.2 19.37 9.500
16505.4 0 124.0 19.37 1.083 3.000
248.8 122.2 19.37 9.500
16505.3 0 124.0 19.37 1.083 3.001
250.6 122.2 19.37 9.500
16505.2 0 124.0 19.37 1.083 3.002
251.8 122.2 19.37 9.500
16505.1 0 124.0 19.37 1.083 3.003
253.9 122.2 19.37 9.500
16505.0 1 124.0 19.37 1.083 3.003
254.4 122.2 19.37 9.500
16504.9 0 124.0 19.37 1.083 3.004
256.2 122.2 19.37 9.500
16504.7 0 124.0 19.37 1.083 3.005
257.8 122.2 19.37 9.500
16504.6 0 124.0 19.37 1.083 3.006
259.4 122.2 19.37 9.500
16504.6 0 124.0 19.37 1.083 3.007
260.9 122.2 19.37 9.500
16504.5 0 124.0 19.37 1.083 3.008
262.4 122.2 19.37 9.500
16504.4 1 124.0 19.37 1.083 3.008
263.0 122.2 19.37 9.500
16504.3 0 124.0 19.37 1.083 3.009
264.4 122.2 19.37 9.500
16504.3 0 124.0 19.37 1.083 3.010
265.8 122.2 19.37 9.500
16504.2 0 124.0 19.37 1.083 3.012
268.3 122.2 19.37 9.500
16504.2 0 124.0 19.37 1.083 3.013
268.6 122.2 19.37 9.500
16504.0 1 124.0 19.37 1.083 3.014
270.6 122.2 19.37 9.500
16503.8 0 124.0 19.37 1.083 3.015
273.1 122.2 19.37 9.500
16503.8 0 124.0 19.37 1.083 3.016
274.2 122.2 19.37 9.500
16503.7 1 124.0 19.37 1.083 3.015
274.8 122.2 19.37 9.500
16503.7 0 124.0 19.37 1.083 3.016
275.9 122.2 19.37 9.500
16503.7 0 124.0 19.37 1.083 3.018
276.3 122.2 19.37 9.500
16503.6 0 124.0 19.37 1.083 3.018
278.1 122.2 19.37 9.500
16503.4 1 124.0 19.37 1.083 3.018
278.7 122.2 19.37 9.500
16503.3 1 124.0 19.37 1.083 3.018
279.3 122.2 19.37 9.500
16503.3 0 124.0 19.37 1.083 3.019
281.4 122.2 19.37 9.500
16503.0 0 124.0 19.37 1.083 3.021
286.9 122.2 19.37 9.500
16502.9 1 124.0 19.37 1.083 3.021
287.4 122.2 19.37 9.500
16502.9 0 124.0 19.37 1.083 3.022
289.1 122.2 19.37 9.500
16502.9 0 124.0 19.37 1.083 3.024
290.9 122.2 19.37 9.500
16502.7 1 124.1 19.37 1.083 3.024
291.5 122.2 19.37 9.500
16502.7 0 124.1 19.37 1.083 3.025
293.0 122.2 19.37 9.500
16502.4 1 124.1 19.37 1.083 3.025
294.2 122.2 19.37 9.500
16502.4 0 124.1 19.37 1.083 3.026
296.2 122.2 19.37 9.500
16502.3 1 124.1 19.37 1.083 3.026
296.7 122.2 19.37 9.500
16502.1 1 124.1 19.37 1.082 3.025
297.2 122.2 19.37 9.500
16502.1 0 124.1 19.37 1.083 3.027
298.6 122.2 19.37 9.500
16502.0 1 124.1 19.37 1.082 3.027
299.2 122.2 19.37 9.500
16501.9 1 124.1 19.37 1.082 3.026
299.7 122.2 19.37 9.500
16501.9 0 124.1 19.37 1.082 3.028
302.1 122.2 19.37 9.500
16501.6 1 124.1 19.37 1.082 3.027
303.2 122.2 19.37 9.500
16501.5 1 124.1 19.37 1.082 3.027
303.8 122.2 19.37 9.500
16501.4 1 124.1 19.37 1.082 3.027
304.4 122.2 19.37 9.500
16501.2 1 124.1 19.37 1.082 3.027
304.8 122.2 19.37 9.500
16501.1 1 124.1 19.37 1.082 3.027
305.4 122.2 19.37 9.500
16501.0 1 124.1 19.37 1.082 3.026
306.0 122.2 19.37 9.500
16500.9 1 124.1 19.37 1.082 3.026
306.4 122.2 19.37 9.500
16500.7 1 124.1 19.37 1.082 3.026
306.9 122.2 19.37 9.500
16500.7 1 124.1 19.37 1.082 3.026
307.5 122.2 19.37 9.500
16500.6 1 124.1 19.37 1.082 3.026
307.9 122.2 19.37 9.500
16500.4 1 124.1 19.37 1.082 3.026
308.3 122.2 19.37 9.500
16500.3 1 124.1 19.37 1.082 3.026
308.7 122.2 19.37 9.500
16500.3 1 124.1 19.37 1.082 3.025
309.2 122.2 19.37 9.500
16500.1 1 124.1 19.37 1.081 3.025
309.7 122.2 19.37 9.500
16500.1 1 124.1 19.37 1.081 3.025
310.2 122.2 19.37 9.500
16499.9 1 124.1 19.37 1.081 3.025
310.6 122.2 19.37 9.500
16499.9 1 124.1 19.37 1.081 3.025
311.2 122.2 19.37 9.500
16499.8 1 124.1 19.37 1.081 3.025
311.8 122.2 19.37 9.500
16499.6 1 124.1 19.37 1.081 3.025
312.2 122.2 19.37 9.500
16499.5 1 124.1 19.37 1.081 3.025
312.7 122.2 19.37 9.500
16499.4 1 124.1 19.37 1.081 3.025
313.0 122.2 19.37 9.500
16499.3 1 124.1 19.37 1.081 3.024
313.4 122.2 19.37 9.500
16499.3 1 124.1 19.37 1.081 3.024
313.8 122.2 19.37 9.500
16499.2 1 124.1 19.37 1.081 3.024
314.2 122.2 19.37 9.500
16499.1 1 124.1 19.37 1.081 3.024
314.6 122.2 19.37 9.500
16499.0 1 124.1 19.37 1.081 3.024
315.0 122.2 19.37 9.500
16498.9 1 124.1 19.37 1.081 3.024
315.5 122.2 19.37 9.500
16498.8 1 124.1 19.37 1.081 3.024
315.8 122.2 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.43E-05 | 0.00 0.00 -1.00 0.03 0.00 -0.01 0.00
9.45E-04 | 0.03 0.01 -0.03 -1.00 0.00 -0.01 0.00
1.96E-02 | -0.99 -0.02 0.00 -0.03 0.00 -0.15 -0.01
1.60E-02 | -0.15 0.00 -0.01 -0.01 0.00 0.99 0.06
1.99E+00 | 0.00 0.30 0.00 0.00 0.00 0.05 -0.95
4.84E+00 | 0.02 -0.95 0.00 -0.01 0.00 0.02 -0.30
3.68E+06 | 0.00 0.00 0.00 0.00 1.00 0.00 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 124.090 +/- 0.157199 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.15356 1
3 3 1 gaussian norm 1.08070 +/- 0.598816E-02 1
4 4 2 powerlaw PhoIndex 3.02392 +/- 1.22367 1
5 5 2 powerlaw norm 315.824 +/- 1918.49 1
6 6 3 gaussian LineE keV 122.225 +/- 0.160040 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.53880 2
8 3 3 gaussian norm 1.08070 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 315.824 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 16498.83 using 198 PHA bins.
Reduced chi-squared = 86.83595 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 83.750) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 83.750) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9757 photons ( 2.0030E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9449 photons ( 1.9196E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:16 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.518 +/- 5.8615E-03
Net count rate (cts/s) for file 2 2.518 +/- 5.8615E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 633564.8 using 168 PHA bins.
Reduced chi-squared = 3959.780 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18477.89 using 168 PHA bins.
Reduced chi-squared = 115.4868 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1871.16 -3 86.28 13.15 0.1401 0.9007
0.4730 86.56 12.09 0.8972
1078.24 -4 77.50 11.48 0.1297 0.8261
0.3411 79.55 10.22 0.8299
949.801 -5 81.30 9.570 0.1251 0.8933
0.4500 81.82 9.774 0.8921
643.554 -6 79.26 9.799 0.1426 0.8833
0.4459 81.20 9.820 0.8851
637.992 -7 79.63 9.059 0.1380 0.8796
0.4414 81.30 9.576 0.8815
636.218 -8 79.42 9.427 0.1414 0.8811
0.4421 81.26 9.786 0.8828
635.833 -9 79.51 9.238 0.1396 0.8800
0.4411 81.29 9.654 0.8818
635.712 -10 79.46 9.337 0.1406 0.8806
0.4416 81.27 9.731 0.8823
635.679 -11 79.49 9.284 0.1401 0.8803
0.4413 81.28 9.688 0.8820
635.670 -12 79.47 9.312 0.1404 0.8805
0.4415 81.28 9.712 0.8822
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.99E-07 | 0.00 0.00 -0.28 0.55 -0.58 0.00 0.00 0.52
1.02E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.07E-06 | 0.00 0.01 -0.96 -0.14 0.19 0.00 0.01 -0.15
4.73E-04 | 0.02 0.01 -0.02 -0.44 -0.79 0.02 0.01 -0.42
3.69E-02 | -0.11 -0.75 0.00 0.00 0.00 0.08 0.64 0.00
7.72E-02 | -0.16 0.62 0.01 0.01 0.01 -0.25 0.73 0.01
5.17E-02 | 0.94 -0.05 0.00 0.01 0.01 -0.32 0.14 0.01
5.84E-02 | -0.29 -0.22 0.00 -0.01 -0.02 -0.91 -0.19 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.4734 +/- 0.229762 1
2 2 1 gaussian Sigma keV 9.31224 +/- 0.231042 1
3 3 1 gaussian norm 0.140388 +/- 0.316505E-02 1
4 4 2 powerlaw PhoIndex 0.880463 +/- 0.103967E-01 1
5 5 2 powerlaw norm 0.441478 +/- 0.182694E-01 1
6 6 3 gaussian LineE keV 81.2761 +/- 0.242205 2
7 7 3 gaussian Sigma keV 9.71185 +/- 0.243366 2
8 3 3 gaussian norm 0.140388 = par 3 2
9 8 4 powerlaw PhoIndex 0.882195 +/- 0.998262E-02 2
10 5 4 powerlaw norm 0.441478 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 635.6699 using 168 PHA bins.
Reduced chi-squared = 3.972937 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.806) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.806) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9685 photons ( 1.1737E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9624 photons ( 1.1702E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
68.15379
=====best line=====
79.4817 0.230384
=====best sigma=====
9.29525 0.231787
=====norm=====
0.140207 0.317617E-02
=====phoindx=====
0.880353 0.104083E-01
=====pow_norm=====
0.441379 0.182950E-01
=====best line=====
81.2784 0.242610
=====best sigma=====
9.69754 0.243920
=====norm=====
0.140207 par
=====phoindx=====
0.882093 0.999383E-02
=====pow_norm=====
0.441379 par
=====redu_chi=====
3.972925
=====area_flux=====
0.9685
=====area_flux_f=====
0.9624
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 12 1 640 2000 1271.7072 0 0.140207 0.317617E-02 9.29525 0.231787 0.880353 0.104083E-01 0.441379 0.182950E-01 0.9685 640 2000 1300.4544 0 0.140207 0.317617E-02 9.69754 0.243920 0.882093 0.999383E-02 0.441379 0.182950E-01 0.9624 3.972925 1
=====redu_chi=====
491.2684
=====best line=====
124.090 0.157199
=====best sigma=====
19.3655 2.15356
=====norm=====
1.08070 0.598816E-02
=====phoindx=====
3.02392 1.22367
=====pow_norm=====
315.824 1918.49
=====best line=====
122.225 0.160040
=====best sigma=====
19.3655 1.53880
=====norm=====
1.08070 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
315.824 par
=====redu_chi=====
86.83595
=====area_flux=====
0.9757
=====area_flux_f=====
0.9449
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 12 1 1600 3200 1985.44 0 1.08070 0.598816E-02 309.848 34.45696 3.02392 1.22367 315.824 1918.49 0.9757 1600 3200 1955.6 0 1.08070 0.598816E-02 309.848 24.6208 9.50000 -1.00000 315.824 1918.49 0.9449 86.83595 1
=====redu_chi=====
115.4868
=====best line=====
79.4734 0.229762
=====best sigma=====
9.31224 0.231042
=====norm=====
0.140388 0.316505E-02
=====phoindx=====
0.880463 0.103967E-01
=====pow_norm=====
0.441478 0.182694E-01
=====best line=====
81.2761 0.242205
=====best sigma=====
9.71185 0.243366
=====norm=====
0.140388 par
=====phoindx=====
0.882195 0.998262E-02
=====pow_norm=====
0.441478 par
=====redu_chi=====
3.972937
=====area_flux=====
0.9685
=====area_flux_f=====
0.9624
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 12 1 640 2000 1271.5744 0 0.140388 0.316505E-02 9.31224 0.231042 0.880463 0.103967E-01 0.441478 0.182694E-01 0.9685 640 2000 1300.4176 0 0.140388 0.316505E-02 9.71185 0.243366 0.882195 0.998262E-02 0.441478 0.182694E-01 0.9624 3.972937 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:16 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.300 +/- 6.7103E-03
Net count rate (cts/s) for file 2 3.300 +/- 6.7103E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 275637.4 using 168 PHA bins.
Reduced chi-squared = 1722.734 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 8775.776 using 168 PHA bins.
Reduced chi-squared = 54.84860 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2083.18 -3 87.08 12.91 0.1779 0.7900
0.4237 87.98 12.29 0.7896
1006.44 -4 83.34 9.623 0.1446 0.7632
0.3640 85.68 9.704 0.7643
964.007 -3 83.96 9.620 0.1729 0.7976
0.4089 86.17 11.66 0.7965
890.571 -4 83.94 9.582 0.1703 0.8082
0.4320 86.31 9.908 0.8074
888.152 0 83.93 9.609 0.1715 0.8079
0.4322 86.26 10.01 0.8075
887.046 -1 83.91 9.710 0.1742 0.8080
0.4320 86.19 10.25 0.8080
886.593 -2 83.93 9.726 0.1750 0.8091
0.4337 86.20 10.15 0.8091
886.332 -3 83.95 9.757 0.1759 0.8128
0.4400 86.21 10.22 0.8126
886.262 -4 83.96 9.761 0.1761 0.8144
0.4431 86.22 10.20 0.8143
886.251 -5 83.96 9.764 0.1762 0.8145
0.4434 86.22 10.21 0.8145
886.251 1 83.96 9.764 0.1762 0.8145
0.4434 86.22 10.21 0.8145
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.62E-07 | 0.00 0.00 -0.21 0.56 -0.59 0.00 0.00 0.54
7.62E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.61E-06 | 0.00 0.01 -0.98 -0.09 0.16 0.00 0.04 -0.10
3.88E-04 | 0.02 0.02 -0.04 -0.44 -0.78 0.02 0.15 -0.42
1.76E-03 | -0.01 -0.08 0.04 0.07 0.11 0.00 0.99 0.07
4.75E-02 | 0.92 0.18 0.00 0.01 0.01 -0.36 0.02 0.01
5.55E-02 | -0.32 0.86 0.01 0.01 0.01 -0.38 0.07 0.01
5.55E-02 | 0.24 0.46 0.01 0.02 0.03 0.85 0.03 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.9636 +/- 0.220769 1
2 2 1 gaussian Sigma keV 9.76425 +/- 0.234117 1
3 3 1 gaussian norm 0.176164 +/- 0.410738E-02 1
4 4 2 powerlaw PhoIndex 0.814521 +/- 0.101320E-01 1
5 5 2 powerlaw norm 0.443399 +/- 0.175893E-01 1
6 6 3 gaussian LineE keV 86.2207 +/- 0.233303 2
7 7 3 gaussian Sigma keV 10.2130 +/- 0.454563E-01 2
8 3 3 gaussian norm 0.176164 = par 3 2
9 8 4 powerlaw PhoIndex 0.814483 +/- 0.973272E-02 2
10 5 4 powerlaw norm 0.443399 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 886.2507 using 168 PHA bins.
Reduced chi-squared = 5.539067 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.307) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.307) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.278 photons ( 1.5701E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.278 photons ( 1.5766E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:16 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.502 +/- 1.0118E-02
Net count rate (cts/s) for file 2 7.502 +/- 1.0118E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.203 +/- 1.2141E-02( 56.0% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.203 +/- 1.2141E-02( 56.0% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 3920803. using 198 PHA bins.
Reduced chi-squared = 20635.80 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 106212.1 using 198 PHA bins.
Reduced chi-squared = 559.0113 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
56057.7 -3 115.4 19.04 0.5500 2.846
0.4168 118.2 18.88 2.830
55861.9 2 115.4 19.03 0.5508 2.220
1.121 118.3 18.88 2.633
54878.2 1 115.7 18.97 0.5586 2.152
1.555 118.5 18.83 2.396
46460.2 0 118.1 18.36 0.6270 1.900
3.801 120.4 18.35 2.055
25799.3 0 124.1 19.13 0.9489 1.887
3.933 125.3 19.05 2.096
21338.1 -1 121.9 19.36 1.493 1.948
0.7036 122.8 19.36 2.780
20759.0 0 122.1 19.36 1.461 1.955
0.6991 123.0 19.36 6.751
20386.3 0 122.4 19.36 1.439 1.931
0.8642 123.1 19.36 9.142
20169.9 0 122.6 19.37 1.426 1.942
0.8910 123.3 19.37 9.379
20034.1 0 122.8 19.37 1.418 1.949
0.9463 123.4 19.37 9.483
19945.6 0 122.9 19.37 1.413 1.963
0.9713 123.5 19.37 9.495
19879.7 0 123.1 19.37 1.409 1.976
1.007 123.6 19.37 9.498
19839.0 0 123.2 19.37 1.407 1.985
1.075 123.6 19.37 9.500
19802.6 0 123.3 19.37 1.405 2.000
1.111 123.7 19.37 9.500
19780.9 0 123.3 19.37 1.403 2.021
1.124 123.7 19.37 9.500
19760.1 0 123.4 19.37 1.402 2.039
1.172 123.8 19.37 9.500
19748.3 0 123.4 19.37 1.402 2.040
1.324 123.8 19.37 9.500
19742.1 0 123.4 19.37 1.402 2.061
1.353 123.8 19.37 9.500
19737.4 0 123.5 19.37 1.401 2.073
1.458 123.8 19.37 9.500
19727.3 0 123.5 19.37 1.401 2.083
1.578 123.8 19.37 9.500
19720.8 0 123.5 19.37 1.401 2.093
1.715 123.8 19.37 9.500
19713.4 0 123.5 19.37 1.400 2.102
1.859 123.8 19.37 9.500
19637.7 0 123.6 19.37 1.394 2.086
2.021 123.9 19.37 9.500
19571.2 0 123.6 19.37 1.388 2.075
2.151 123.9 19.37 9.500
19512.6 0 123.7 19.37 1.382 2.066
2.261 124.0 19.37 9.500
19460.9 0 123.8 19.37 1.377 2.059
2.348 124.1 19.37 9.500
19415.1 0 123.8 19.37 1.372 2.053
2.425 124.1 19.37 9.500
19374.6 0 123.9 19.37 1.368 2.049
2.493 124.2 19.37 9.500
19338.3 0 123.9 19.37 1.364 2.045
2.548 124.2 19.37 9.500
19306.0 0 124.0 19.37 1.360 2.043
2.596 124.2 19.37 9.500
19276.9 0 124.1 19.37 1.357 2.040
2.639 124.3 19.37 9.500
19250.9 0 124.1 19.37 1.353 2.038
2.679 124.3 19.37 9.500
19227.5 0 124.2 19.37 1.350 2.037
2.715 124.4 19.37 9.500
19206.5 0 124.2 19.37 1.347 2.035
2.748 124.4 19.37 9.500
19187.6 0 124.3 19.37 1.345 2.034
2.776 124.5 19.37 9.500
19155.1 0 124.4 19.37 1.340 2.032
2.831 124.5 19.37 9.500
19141.2 0 124.4 19.37 1.338 2.032
2.852 124.6 19.37 9.500
19128.5 0 124.5 19.37 1.336 2.031
2.873 124.6 19.37 9.500
19117.0 0 124.5 19.37 1.334 2.031
2.892 124.6 19.37 9.500
19106.6 0 124.5 19.37 1.333 2.031
2.908 124.7 19.37 9.500
19097.0 0 124.6 19.37 1.331 2.031
2.925 124.7 19.37 9.500
19088.3 0 124.6 19.37 1.330 2.031
2.938 124.7 19.37 9.500
19080.4 0 124.7 19.37 1.328 2.031
2.951 124.7 19.37 9.500
19073.1 0 124.7 19.37 1.327 2.031
2.965 124.8 19.37 9.500
19066.4 0 124.7 19.37 1.326 2.031
2.976 124.8 19.37 9.500
19060.2 0 124.8 19.37 1.325 2.032
2.988 124.8 19.37 9.500
19054.7 0 124.8 19.37 1.324 2.032
3.000 124.8 19.37 9.500
19049.5 0 124.8 19.37 1.323 2.032
3.012 124.9 19.37 9.500
19044.8 0 124.8 19.37 1.322 2.033
3.018 124.9 19.37 9.500
19040.4 0 124.9 19.37 1.321 2.033
3.028 124.9 19.37 9.500
19036.4 0 124.9 19.37 1.320 2.034
3.038 124.9 19.37 9.500
19032.7 0 124.9 19.37 1.319 2.034
3.048 124.9 19.37 9.500
19029.3 0 124.9 19.37 1.318 2.034
3.061 124.9 19.37 9.500
19026.3 0 125.0 19.37 1.318 2.035
3.072 125.0 19.37 9.500
19023.3 0 125.0 19.37 1.317 2.035
3.080 125.0 19.37 9.500
19020.6 0 125.0 19.37 1.317 2.036
3.091 125.0 19.37 9.500
19018.1 0 125.0 19.37 1.316 2.036
3.100 125.0 19.37 9.500
19015.8 0 125.1 19.37 1.316 2.037
3.108 125.0 19.37 9.500
19013.7 0 125.1 19.37 1.315 2.037
3.116 125.0 19.37 9.500
19011.8 0 125.1 19.37 1.315 2.038
3.125 125.0 19.37 9.500
19009.9 0 125.1 19.37 1.314 2.039
3.135 125.0 19.37 9.500
19008.2 0 125.1 19.37 1.314 2.039
3.142 125.1 19.37 9.500
19006.6 0 125.1 19.37 1.313 2.040
3.151 125.1 19.37 9.500
19005.1 0 125.2 19.37 1.313 2.040
3.160 125.1 19.37 9.500
19003.7 0 125.2 19.37 1.313 2.041
3.171 125.1 19.37 9.500
19002.5 0 125.2 19.37 1.312 2.042
3.177 125.1 19.37 9.500
19001.3 0 125.2 19.37 1.312 2.042
3.187 125.1 19.37 9.500
19000.1 0 125.2 19.37 1.312 2.043
3.195 125.1 19.37 9.500
18999.1 0 125.2 19.37 1.311 2.044
3.202 125.1 19.37 9.500
18998.1 0 125.2 19.37 1.311 2.044
3.211 125.1 19.37 9.500
18997.2 0 125.3 19.37 1.311 2.045
3.219 125.1 19.37 9.500
18996.3 0 125.3 19.37 1.311 2.045
3.229 125.1 19.37 9.500
18995.4 0 125.3 19.37 1.310 2.046
3.236 125.1 19.37 9.500
18994.7 0 125.3 19.37 1.310 2.047
3.248 125.1 19.37 9.500
18994.0 0 125.3 19.37 1.310 2.047
3.257 125.1 19.37 9.500
18993.3 0 125.3 19.37 1.310 2.048
3.265 125.1 19.37 9.500
18992.7 0 125.3 19.37 1.310 2.048
3.275 125.2 19.37 9.500
18992.1 0 125.3 19.37 1.310 2.049
3.284 125.2 19.37 9.500
18991.5 0 125.3 19.37 1.309 2.050
3.290 125.2 19.37 9.500
18991.0 0 125.3 19.37 1.309 2.050
3.302 125.2 19.37 9.500
18990.5 0 125.4 19.37 1.309 2.051
3.312 125.2 19.37 9.500
18990.1 0 125.4 19.37 1.309 2.051
3.322 125.2 19.37 9.500
18989.6 0 125.4 19.37 1.309 2.052
3.331 125.2 19.37 9.500
18989.2 0 125.4 19.37 1.309 2.053
3.342 125.2 19.37 9.500
18988.8 0 125.4 19.37 1.309 2.053
3.353 125.2 19.37 9.500
18988.5 0 125.4 19.37 1.308 2.054
3.361 125.2 19.37 9.500
18988.1 0 125.4 19.37 1.308 2.054
3.372 125.2 19.37 9.500
18987.8 0 125.4 19.37 1.308 2.055
3.382 125.2 19.37 9.500
18987.4 0 125.4 19.37 1.308 2.056
3.390 125.2 19.37 9.500
18987.1 0 125.4 19.37 1.308 2.057
3.399 125.2 19.37 9.500
18986.9 0 125.4 19.37 1.308 2.057
3.408 125.2 19.37 9.500
18986.6 0 125.4 19.37 1.308 2.058
3.420 125.2 19.37 9.500
18986.4 0 125.4 19.37 1.308 2.058
3.428 125.2 19.37 9.500
18986.1 0 125.4 19.37 1.308 2.059
3.436 125.2 19.37 9.500
18985.9 0 125.4 19.37 1.308 2.060
3.449 125.2 19.37 9.500
18985.6 0 125.4 19.37 1.308 2.060
3.458 125.2 19.37 9.500
18985.4 0 125.4 19.37 1.308 2.061
3.469 125.2 19.37 9.500
18985.3 0 125.4 19.37 1.307 2.062
3.477 125.2 19.37 9.500
18985.0 0 125.4 19.37 1.307 2.062
3.489 125.2 19.37 9.500
18984.9 0 125.4 19.37 1.307 2.063
3.497 125.2 19.37 9.500
18984.6 0 125.5 19.37 1.307 2.064
3.510 125.2 19.37 9.500
18984.5 0 125.5 19.37 1.307 2.064
3.522 125.2 19.37 9.500
18984.4 0 125.5 19.37 1.307 2.065
3.532 125.2 19.37 9.500
18984.2 0 125.5 19.37 1.307 2.065
3.545 125.2 19.37 9.500
18984.1 0 125.5 19.37 1.307 2.066
3.556 125.2 19.37 9.500
18983.9 0 125.5 19.37 1.307 2.066
3.570 125.2 19.37 9.500
18983.8 0 125.5 19.37 1.307 2.067
3.581 125.2 19.37 9.500
18983.7 0 125.5 19.37 1.307 2.068
3.591 125.2 19.37 9.500
18983.6 0 125.5 19.37 1.307 2.068
3.600 125.2 19.37 9.500
18983.4 0 125.5 19.37 1.307 2.069
3.614 125.2 19.37 9.500
18983.3 0 125.5 19.37 1.307 2.070
3.623 125.2 19.37 9.500
18983.2 0 125.5 19.37 1.307 2.070
3.635 125.2 19.37 9.500
18983.1 0 125.5 19.37 1.307 2.071
3.647 125.2 19.37 9.500
18983.0 0 125.5 19.37 1.307 2.071
3.656 125.2 19.37 9.500
18982.9 0 125.5 19.37 1.307 2.072
3.669 125.2 19.37 9.500
18982.8 0 125.5 19.37 1.307 2.072
3.681 125.2 19.37 9.500
18982.8 0 125.5 19.37 1.307 2.073
3.693 125.2 19.37 9.500
18982.7 0 125.5 19.37 1.307 2.074
3.703 125.2 19.37 9.500
18982.6 0 125.5 19.37 1.307 2.074
3.716 125.2 19.37 9.500
18982.5 0 125.5 19.37 1.307 2.075
3.729 125.2 19.37 9.500
18982.4 0 125.5 19.37 1.307 2.076
3.740 125.2 19.37 9.500
18982.2 0 125.5 19.37 1.307 2.076
3.752 125.2 19.37 9.500
18982.2 0 125.5 19.37 1.307 2.077
3.765 125.2 19.37 9.500
18982.0 0 125.5 19.37 1.307 2.078
3.789 125.2 19.37 9.500
18982.0 0 125.5 19.37 1.307 2.078
3.802 125.2 19.37 9.500
18981.9 0 125.5 19.37 1.307 2.079
3.815 125.2 19.37 9.500
18981.8 0 125.5 19.37 1.307 2.080
3.826 125.2 19.37 9.500
18981.7 0 125.5 19.37 1.307 2.080
3.838 125.2 19.37 9.500
18981.7 0 125.5 19.37 1.307 2.081
3.847 125.2 19.37 9.500
18981.7 0 125.5 19.37 1.307 2.082
3.861 125.2 19.37 9.500
18981.6 0 125.5 19.37 1.307 2.082
3.875 125.2 19.37 9.500
18981.5 0 125.5 19.37 1.307 2.083
3.889 125.2 19.37 9.500
18981.5 0 125.5 19.37 1.306 2.083
3.899 125.2 19.37 9.500
18981.3 0 125.5 19.37 1.306 2.085
3.919 125.2 19.37 9.500
18981.3 0 125.5 19.37 1.306 2.085
3.932 125.2 19.37 9.500
18981.2 0 125.5 19.37 1.306 2.086
3.944 125.2 19.37 9.500
18981.2 0 125.5 19.37 1.306 2.086
3.960 125.2 19.37 9.500
18981.1 0 125.5 19.37 1.306 2.087
3.971 125.2 19.37 9.500
18981.0 0 125.5 19.37 1.306 2.088
3.985 125.2 19.37 9.500
18981.0 0 125.5 19.37 1.306 2.088
3.998 125.2 19.37 9.500
18980.9 0 125.5 19.37 1.306 2.089
4.014 125.2 19.37 9.500
18980.9 0 125.5 19.37 1.306 2.089
4.027 125.2 19.37 9.500
18980.8 0 125.5 19.37 1.306 2.090
4.041 125.2 19.37 9.500
18980.8 0 125.5 19.37 1.306 2.090
4.056 125.2 19.37 9.500
18980.7 0 125.5 19.37 1.306 2.091
4.071 125.2 19.37 9.500
18980.7 0 125.5 19.37 1.306 2.092
4.080 125.2 19.37 9.500
18980.7 0 125.5 19.37 1.306 2.092
4.093 125.2 19.37 9.500
18980.6 0 125.5 19.37 1.306 2.093
4.110 125.2 19.37 9.500
18980.4 1 125.5 19.37 1.306 2.093
4.115 125.2 19.37 9.500
18980.2 1 125.5 19.37 1.306 2.092
4.121 125.2 19.37 9.500
18980.2 0 125.5 19.37 1.306 2.093
4.136 125.2 19.37 9.500
18980.0 1 125.5 19.37 1.306 2.093
4.141 125.2 19.37 9.500
18980.0 0 125.5 19.37 1.306 2.094
4.151 125.2 19.37 9.500
18979.8 1 125.5 19.37 1.306 2.093
4.156 125.2 19.37 9.500
18979.8 0 125.5 19.37 1.306 2.094
4.170 125.2 19.37 9.500
18979.6 1 125.5 19.37 1.306 2.094
4.176 125.2 19.37 9.500
18979.4 1 125.5 19.37 1.306 2.094
4.181 125.2 19.37 9.500
18979.3 1 125.5 19.37 1.306 2.094
4.187 125.2 19.37 9.500
18979.1 1 125.5 19.37 1.306 2.093
4.192 125.2 19.37 9.500
18978.9 1 125.5 19.37 1.306 2.093
4.198 125.2 19.37 9.500
18978.7 1 125.5 19.37 1.305 2.093
4.203 125.2 19.37 9.500
18978.6 1 125.5 19.37 1.305 2.093
4.208 125.2 19.37 9.500
18978.4 1 125.5 19.37 1.305 2.093
4.214 125.2 19.37 9.500
18978.2 1 125.5 19.37 1.305 2.093
4.219 125.2 19.37 9.500
18978.0 1 125.5 19.37 1.305 2.093
4.224 125.2 19.37 9.500
18977.9 1 125.5 19.37 1.305 2.092
4.229 125.3 19.37 9.500
18977.7 1 125.5 19.37 1.305 2.092
4.234 125.3 19.37 9.500
18977.6 1 125.5 19.37 1.305 2.092
4.239 125.3 19.37 9.500
18977.5 1 125.5 19.37 1.305 2.092
4.243 125.3 19.37 9.500
18977.3 1 125.5 19.37 1.305 2.092
4.248 125.3 19.37 9.500
18977.1 1 125.5 19.37 1.305 2.092
4.253 125.3 19.37 9.500
18977.0 1 125.5 19.37 1.304 2.092
4.257 125.3 19.37 9.500
18976.9 1 125.5 19.37 1.304 2.092
4.262 125.3 19.37 9.500
18976.7 1 125.5 19.37 1.304 2.092
4.267 125.3 19.37 9.500
18976.6 1 125.5 19.37 1.304 2.092
4.271 125.3 19.37 9.500
18976.5 1 125.5 19.37 1.304 2.091
4.275 125.3 19.37 9.500
18976.3 1 125.5 19.37 1.304 2.091
4.280 125.3 19.37 9.500
18976.2 1 125.5 19.37 1.304 2.091
4.284 125.3 19.37 9.500
18976.1 1 125.5 19.37 1.304 2.091
4.288 125.3 19.37 9.500
18975.9 1 125.5 19.37 1.304 2.091
4.292 125.3 19.37 9.500
18975.8 1 125.5 19.37 1.304 2.091
4.297 125.3 19.37 9.500
18975.7 1 125.5 19.37 1.304 2.091
4.301 125.3 19.37 9.500
18975.6 1 125.5 19.37 1.304 2.091
4.305 125.3 19.37 9.500
18975.4 1 125.5 19.37 1.304 2.091
4.309 125.3 19.37 9.500
18975.3 1 125.6 19.37 1.303 2.091
4.313 125.3 19.37 9.500
18975.2 1 125.6 19.37 1.303 2.091
4.317 125.3 19.37 9.500
18975.1 1 125.6 19.37 1.303 2.091
4.320 125.3 19.37 9.500
18975.0 1 125.6 19.37 1.303 2.090
4.324 125.3 19.37 9.500
18974.9 1 125.6 19.37 1.303 2.090
4.328 125.3 19.37 9.500
18974.7 1 125.6 19.37 1.303 2.090
4.332 125.3 19.37 9.500
18974.6 1 125.6 19.37 1.303 2.090
4.335 125.3 19.37 9.500
18974.5 1 125.6 19.37 1.303 2.090
4.339 125.3 19.37 9.500
18974.5 1 125.6 19.37 1.303 2.090
4.343 125.3 19.37 9.500
18974.3 1 125.6 19.37 1.303 2.090
4.346 125.3 19.37 9.500
18974.2 1 125.6 19.37 1.303 2.090
4.350 125.3 19.37 9.500
18974.1 1 125.6 19.37 1.303 2.090
4.353 125.3 19.37 9.500
18974.0 1 125.6 19.37 1.303 2.090
4.357 125.3 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.80E-05 | -0.01 0.00 -1.00 0.03 0.00 -0.01 0.00
4.96E-04 | 0.02 0.00 -0.03 -1.00 0.05 -0.01 0.00
1.68E-02 | -0.99 -0.02 0.01 -0.02 0.00 -0.14 -0.01
1.42E-02 | -0.14 0.00 -0.01 -0.01 0.00 0.99 0.04
1.88E+00 | 0.00 0.29 0.00 0.00 -0.01 0.04 -0.96
4.25E+00 | 0.02 -0.96 0.00 0.00 0.00 0.02 -0.29
1.13E+03 | 0.00 0.00 0.00 0.05 1.00 0.00 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 125.562 +/- 0.145785 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.01446 1
3 3 1 gaussian norm 1.30256 +/- 0.708042E-02 1
4 4 2 powerlaw PhoIndex 2.08999 +/- 1.54722 1
5 5 2 powerlaw norm 4.35675 +/- 33.6249 1
6 6 3 gaussian LineE keV 125.278 +/- 0.143204 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.51107 2
8 3 3 gaussian norm 1.30256 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 4.35675 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 18974.00 using 198 PHA bins.
Reduced chi-squared = 99.86318 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 96.315) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 96.315) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.195 photons ( 2.4733E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.177 photons ( 2.4321E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:17 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.300 +/- 6.7103E-03
Net count rate (cts/s) for file 2 3.300 +/- 6.7103E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 322046.1 using 168 PHA bins.
Reduced chi-squared = 2012.788 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17190.85 using 168 PHA bins.
Reduced chi-squared = 107.4428 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1929.29 -3 87.77 11.68 0.1921 0.8366
0.5095 88.59 11.03 0.8342
924.803 -4 83.85 10.63 0.1754 0.8088
0.4301 86.19 10.41 0.8100
891.526 -5 84.18 9.893 0.1714 0.8105
0.4375 86.24 9.999 0.8104
887.704 -6 83.98 9.780 0.1765 0.8152
0.4441 86.21 10.44 0.8150
886.361 -7 83.97 9.740 0.1755 0.8138
0.4424 86.23 10.15 0.8138
886.270 -8 83.96 9.775 0.1763 0.8147
0.4436 86.22 10.25 0.8146
886.261 -9 83.97 9.756 0.1760 0.8144
0.4432 86.22 10.20 0.8144
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.62E-07 | 0.00 0.00 -0.21 0.56 -0.59 0.00 0.00 0.54
7.62E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.63E-06 | 0.00 0.01 -0.98 -0.09 0.17 0.00 0.04 -0.10
3.88E-04 | 0.02 0.02 -0.04 -0.44 -0.78 0.02 0.16 -0.42
1.60E-03 | -0.01 -0.08 0.04 0.07 0.12 0.00 0.98 0.07
4.76E-02 | 0.92 0.18 0.00 0.01 0.01 -0.35 0.02 0.01
5.59E-02 | -0.33 -0.13 0.00 -0.01 -0.02 -0.94 -0.01 -0.01
5.56E-02 | -0.22 0.97 0.01 0.01 0.02 -0.07 0.07 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.9667 +/- 0.220922 1
2 2 1 gaussian Sigma keV 9.75650 +/- 0.234420 1
3 3 1 gaussian norm 0.176039 +/- 0.411614E-02 1
4 4 2 powerlaw PhoIndex 0.814390 +/- 0.101430E-01 1
5 5 2 powerlaw norm 0.443232 +/- 0.176153E-01 1
6 6 3 gaussian LineE keV 86.2225 +/- 0.234175 2
7 7 3 gaussian Sigma keV 10.1981 +/- 0.433279E-01 2
8 3 3 gaussian norm 0.176039 = par 3 2
9 8 4 powerlaw PhoIndex 0.814368 +/- 0.974339E-02 2
10 5 4 powerlaw norm 0.443232 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 886.2609 using 168 PHA bins.
Reduced chi-squared = 5.539131 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.307) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.307) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.278 photons ( 1.5702E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.278 photons ( 1.5766E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
54.84860
=====best line=====
83.9636 0.220769
=====best sigma=====
9.76425 0.234117
=====norm=====
0.176164 0.410738E-02
=====phoindx=====
0.814521 0.101320E-01
=====pow_norm=====
0.443399 0.175893E-01
=====best line=====
86.2207 0.233303
=====best sigma=====
10.2130 0.454563E-01
=====norm=====
0.176164 par
=====phoindx=====
0.814483 0.973272E-02
=====pow_norm=====
0.443399 par
=====redu_chi=====
5.539067
=====area_flux=====
1.278
=====area_flux_f=====
1.278
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 13 1 640 2000 1343.4176 0 0.176164 0.410738E-02 9.76425 0.234117 0.814521 0.101320E-01 0.443399 0.175893E-01 1.278 640 2000 1379.5312 0 0.176164 0.410738E-02 10.2130 0.454563E-01 0.814483 0.973272E-02 0.443399 0.175893E-01 1.278 5.539067 1
=====redu_chi=====
559.0113
=====best line=====
125.562 0.145785
=====best sigma=====
19.3655 2.01446
=====norm=====
1.30256 0.708042E-02
=====phoindx=====
2.08999 1.54722
=====pow_norm=====
4.35675 33.6249
=====best line=====
125.278 0.143204
=====best sigma=====
19.3655 1.51107
=====norm=====
1.30256 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
4.35675 par
=====redu_chi=====
99.86318
=====area_flux=====
1.195
=====area_flux_f=====
1.177
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 13 1 1600 3200 2008.992 0 1.30256 0.708042E-02 309.848 32.23136 2.08999 1.54722 4.35675 33.6249 1.195 1600 3200 2004.448 0 1.30256 0.708042E-02 309.848 24.17712 9.50000 -1.00000 4.35675 33.6249 1.177 99.86318 1
=====redu_chi=====
107.4428
=====best line=====
83.9667 0.220922
=====best sigma=====
9.75650 0.234420
=====norm=====
0.176039 0.411614E-02
=====phoindx=====
0.814390 0.101430E-01
=====pow_norm=====
0.443232 0.176153E-01
=====best line=====
86.2225 0.234175
=====best sigma=====
10.1981 0.433279E-01
=====norm=====
0.176039 par
=====phoindx=====
0.814368 0.974339E-02
=====pow_norm=====
0.443232 par
=====redu_chi=====
5.539131
=====area_flux=====
1.278
=====area_flux_f=====
1.278
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 13 1 640 2000 1343.4672 0 0.176039 0.411614E-02 9.75650 0.234420 0.814390 0.101430E-01 0.443232 0.176153E-01 1.278 640 2000 1379.56 0 0.176039 0.411614E-02 10.1981 0.433279E-01 0.814368 0.974339E-02 0.443232 0.176153E-01 1.278 5.539131 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:17 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.541 +/- 5.8880E-03
Net count rate (cts/s) for file 2 2.541 +/- 5.8880E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 545795.9 using 168 PHA bins.
Reduced chi-squared = 3411.225 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12830.92 using 168 PHA bins.
Reduced chi-squared = 80.19325 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2248.05 -3 83.74 16.56 0.2161 0.9447
0.5058 83.76 16.25 0.9406
2120.05 -3 77.24 9.373 0.1307 0.7959
0.2855 78.08 9.149 0.8015
848.356 -4 76.95 9.647 0.1474 0.8513
0.3766 78.72 10.85 0.8486
631.419 -5 77.09 9.315 0.1423 0.8453
0.3887 78.83 9.902 0.8461
628.512 -6 76.99 9.557 0.1462 0.8461
0.3884 78.76 9.834 0.8471
628.416 -7 77.04 9.481 0.1457 0.8463
0.3889 78.77 9.830 0.8474
628.404 -8 77.03 9.510 0.1460 0.8463
0.3888 78.77 9.842 0.8473
628.402 -9 77.03 9.499 0.1459 0.8463
0.3888 78.77 9.834 0.8473
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.37E-07 | 0.00 0.00 -0.26 0.53 -0.63 0.00 0.00 0.50
1.00E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.46E-06 | 0.00 0.01 -0.97 -0.12 0.18 0.00 0.01 -0.13
3.84E-04 | 0.02 0.01 -0.02 -0.48 -0.75 0.02 0.01 -0.46
3.74E-02 | -0.12 -0.74 0.00 0.00 0.00 0.09 0.65 0.00
8.02E-02 | -0.25 0.61 0.01 0.00 0.00 -0.32 0.69 0.00
5.34E-02 | 0.90 -0.03 0.00 0.01 0.01 -0.39 0.18 0.01
5.88E-02 | -0.33 -0.28 0.00 -0.01 -0.02 -0.86 -0.27 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0323 +/- 0.235351 1
2 2 1 gaussian Sigma keV 9.49853 +/- 0.234186 1
3 3 1 gaussian norm 0.145871 +/- 0.325923E-02 1
4 4 2 powerlaw PhoIndex 0.846260 +/- 0.998554E-02 1
5 5 2 powerlaw norm 0.388799 +/- 0.156340E-01 1
6 6 3 gaussian LineE keV 78.7686 +/- 0.244927 2
7 7 3 gaussian Sigma keV 9.83427 +/- 0.244068 2
8 3 3 gaussian norm 0.145871 = par 3 2
9 8 4 powerlaw PhoIndex 0.847324 +/- 0.958542E-02 2
10 5 4 powerlaw norm 0.388799 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 628.4021 using 168 PHA bins.
Reduced chi-squared = 3.927513 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.763) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.763) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9898 photons ( 1.1975E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9859 photons ( 1.1968E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:18 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.221 +/- 9.2134E-03
Net count rate (cts/s) for file 2 6.221 +/- 9.2134E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.680 +/- 1.0934E-02( 59.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.680 +/- 1.0934E-02( 59.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.0960008E+07 using 198 PHA bins.
Reduced chi-squared = 57684.25 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 88536.83 using 198 PHA bins.
Reduced chi-squared = 465.9833 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
48787.4 -3 117.4 19.09 0.3994 2.813
0.1446 108.1 19.11 2.760
21969.3 -2 106.4 19.34 1.425 8.373
5.7684E-02 111.4 19.33 8.050
21473.0 -2 108.1 19.36 1.429 9.196
2.8401E-02 110.2 19.36 9.146
20239.0 -1 109.6 19.37 1.393 9.457
1.0415E-02 110.5 19.37 9.377
19748.1 -1 110.5 19.37 1.384 9.489
2.3712E-03 110.7 19.37 9.445
19279.3 -1 111.2 19.37 1.371 9.495
6.9052E-05 111.0 19.37 9.474
18981.3 -1 111.6 19.37 1.364 9.498
1.9418E-05 111.3 19.37 9.493
18528.7 -1 112.0 19.37 1.348 9.499
5.8703E-06 111.6 19.37 9.497
18173.7 -1 112.4 19.37 1.335 9.500
2.3457E-06 111.9 19.37 9.499
17938.4 -1 112.7 19.37 1.327 9.500
5.5568E-07 112.1 19.37 9.500
17752.1 -1 113.0 19.37 1.321 9.500
1.1384E-07 112.3 19.37 9.500
17571.9 -1 113.2 19.37 1.314 9.500
5.6675E-08 112.5 19.37 9.500
17484.2 -1 113.3 19.37 1.311 9.500
2.7557E-08 112.6 19.37 9.500
17415.8 -1 113.4 19.37 1.308 9.500
1.3224E-08 112.7 19.37 9.500
17165.9 -1 113.6 19.37 1.296 2.094
2.9092E-09 112.8 19.37 9.500
16606.6 -2 114.2 19.37 1.262 6.281
1.4225E-09 112.6 19.37 9.500
16501.7 -3 114.3 19.37 1.256 0.6239
2.4417E-10 112.6 19.37 9.500
16127.3 -1 114.8 19.37 1.236 9.331
5.6982E-11 112.9 19.37 9.500
15698.3 0 115.5 19.37 1.208 9.480
2.1315E-11 113.4 19.37 9.500
15424.7 0 116.1 19.37 1.190 9.494
6.0771E-12 114.0 19.37 9.500
15250.8 0 116.6 19.37 1.176 9.498
2.1145E-12 114.4 19.37 9.500
Fit parameter 5 has pegged
14958.9 0 117.5 19.37 1.143 9.510
0.000 114.8 19.10 9.500
Fit parameter 5 has pegged
14908.2 0 117.6 19.37 1.135 9.510
0.000 115.0 19.07 9.500
Fit parameter 5 has pegged
14871.5 0 117.8 19.37 1.129 9.510
0.000 115.1 19.03 9.500
Fit parameter 5 has pegged
14849.6 0 117.9 19.37 1.126 9.510
0.000 115.2 19.00 9.500
Fit parameter 5 has pegged
14831.2 0 118.0 19.37 1.122 9.510
0.000 115.3 18.96 9.500
Fit parameter 5 has pegged
14817.6 0 118.0 19.37 1.120 9.510
0.000 115.3 18.94 9.500
Fit parameter 5 has pegged
14805.3 0 118.1 19.37 1.118 9.510
0.000 115.4 18.90 9.500
Fit parameter 5 has pegged
14796.7 0 118.1 19.37 1.116 9.510
0.000 115.5 18.89 9.500
Fit parameter 5 has pegged
14789.6 0 118.2 19.37 1.115 9.510
0.000 115.5 18.86 9.500
Fit parameter 5 has pegged
14784.8 0 118.2 19.37 1.114 9.510
0.000 115.6 18.85 9.500
Fit parameter 5 has pegged
14781.3 0 118.2 19.37 1.113 9.510
0.000 115.6 18.84 9.500
Fit parameter 5 has pegged
14776.4 0 118.3 19.37 1.112 9.510
0.000 115.6 18.83 9.500
Fit parameter 5 has pegged
14773.4 0 118.3 19.37 1.111 9.510
0.000 115.6 18.82 9.500
Fit parameter 5 has pegged
14770.6 0 118.3 19.37 1.111 9.510
0.000 115.7 18.81 9.500
Fit parameter 5 has pegged
14769.6 0 118.3 19.37 1.110 9.510
0.000 115.7 18.80 9.500
Fit parameter 5 has pegged
14768.7 0 118.3 19.37 1.110 9.510
0.000 115.7 18.80 9.500
Fit parameter 5 has pegged
14762.2 0 118.4 19.37 1.109 9.510
0.000 115.7 18.80 9.500
Fit parameter 5 has pegged
14756.2 0 118.4 19.37 1.108 9.510
0.000 115.7 18.80 9.500
Fit parameter 5 has pegged
14750.8 0 118.5 19.37 1.107 9.510
0.000 115.7 18.80 9.500
Fit parameter 5 has pegged
14745.8 0 118.5 19.37 1.106 9.510
0.000 115.7 18.79 9.500
Fit parameter 5 has pegged
14741.3 0 118.6 19.37 1.105 9.510
0.000 115.7 18.79 9.500
Fit parameter 5 has pegged
14737.2 0 118.6 19.37 1.104 9.510
0.000 115.7 18.79 9.500
Fit parameter 5 has pegged
14733.5 0 118.6 19.37 1.103 9.510
0.000 115.7 18.79 9.500
Fit parameter 5 has pegged
14730.1 0 118.7 19.37 1.102 9.510
0.000 115.7 18.79 9.500
Fit parameter 5 has pegged
14727.0 0 118.7 19.37 1.102 9.510
0.000 115.7 18.78 9.500
Fit parameter 5 has pegged
14724.1 0 118.8 19.37 1.101 9.510
0.000 115.7 18.78 9.500
Fit parameter 5 has pegged
14721.5 0 118.8 19.37 1.100 9.510
0.000 115.7 18.78 9.500
Fit parameter 5 has pegged
14719.1 0 118.8 19.37 1.100 9.510
0.000 115.8 18.78 9.500
Fit parameter 5 has pegged
14716.9 0 118.8 19.37 1.099 9.510
0.000 115.8 18.78 9.500
Fit parameter 5 has pegged
14714.9 0 118.9 19.37 1.098 9.510
0.000 115.8 18.77 9.500
Fit parameter 5 has pegged
14713.1 0 118.9 19.37 1.098 9.510
0.000 115.8 18.77 9.500
Fit parameter 5 has pegged
14711.4 0 118.9 19.37 1.097 9.510
0.000 115.8 18.77 9.500
Fit parameter 5 has pegged
14709.7 0 119.0 19.37 1.097 9.510
0.000 115.8 18.76 9.500
Fit parameter 5 has pegged
14708.2 0 119.0 19.37 1.096 9.510
0.000 115.8 18.76 9.500
Fit parameter 5 has pegged
14706.8 0 119.0 19.37 1.096 9.510
0.000 115.8 18.76 9.500
Fit parameter 5 has pegged
14705.6 0 119.0 19.37 1.095 9.510
0.000 115.8 18.76 9.500
Fit parameter 5 has pegged
14704.4 0 119.0 19.37 1.095 9.510
0.000 115.8 18.75 9.500
Fit parameter 5 has pegged
14703.4 0 119.1 19.37 1.095 9.510
0.000 115.8 18.75 9.500
Fit parameter 5 has pegged
14702.4 0 119.1 19.37 1.094 9.510
0.000 115.8 18.75 9.500
Fit parameter 5 has pegged
14701.4 0 119.1 19.37 1.094 9.510
0.000 115.8 18.75 9.500
Fit parameter 5 has pegged
14700.6 0 119.1 19.37 1.094 9.510
0.000 115.9 18.74 9.500
Fit parameter 5 has pegged
14699.7 0 119.1 19.37 1.093 9.510
0.000 115.9 18.74 9.500
Fit parameter 5 has pegged
14698.9 0 119.1 19.37 1.093 9.510
0.000 115.9 18.74 9.500
Fit parameter 5 has pegged
14698.3 0 119.1 19.37 1.093 9.510
0.000 115.9 18.73 9.500
Fit parameter 5 has pegged
14697.6 0 119.2 19.37 1.092 9.510
0.000 115.9 18.73 9.500
Fit parameter 5 has pegged
14696.9 0 119.2 19.37 1.092 9.510
0.000 115.9 18.73 9.500
Fit parameter 5 has pegged
14696.3 0 119.2 19.37 1.092 9.510
0.000 115.9 18.73 9.500
Fit parameter 5 has pegged
14695.8 0 119.2 19.37 1.091 9.510
0.000 115.9 18.72 9.500
Fit parameter 5 has pegged
14695.2 0 119.2 19.37 1.091 9.510
0.000 115.9 18.72 9.500
Fit parameter 5 has pegged
14694.7 0 119.2 19.37 1.091 9.510
0.000 115.9 18.72 9.500
Fit parameter 5 has pegged
14694.3 0 119.2 19.37 1.091 9.510
0.000 115.9 18.72 9.500
Fit parameter 5 has pegged
14693.8 0 119.2 19.37 1.090 9.510
0.000 115.9 18.71 9.500
Fit parameter 5 has pegged
14693.4 0 119.2 19.37 1.090 9.510
0.000 115.9 18.71 9.500
Fit parameter 5 has pegged
14693.0 0 119.2 19.37 1.090 9.510
0.000 115.9 18.71 9.500
Fit parameter 5 has pegged
14692.7 0 119.3 19.37 1.090 9.510
0.000 115.9 18.71 9.500
Fit parameter 5 has pegged
14692.3 0 119.3 19.37 1.089 9.510
0.000 116.0 18.70 9.500
Fit parameter 5 has pegged
14692.0 0 119.3 19.37 1.089 9.510
0.000 116.0 18.70 9.500
Fit parameter 5 has pegged
14691.6 0 119.3 19.37 1.089 9.510
0.000 116.0 18.70 9.500
Fit parameter 5 has pegged
14691.4 0 119.3 19.37 1.089 9.510
0.000 116.0 18.70 9.500
Fit parameter 5 has pegged
14691.1 0 119.3 19.37 1.089 9.510
0.000 116.0 18.70 9.500
Fit parameter 5 has pegged
14690.8 0 119.3 19.37 1.089 9.510
0.000 116.0 18.69 9.500
Fit parameter 5 has pegged
14690.6 0 119.3 19.37 1.088 9.510
0.000 116.0 18.69 9.500
Fit parameter 5 has pegged
14690.3 0 119.3 19.37 1.088 9.510
0.000 116.0 18.69 9.500
Fit parameter 5 has pegged
14690.1 0 119.3 19.37 1.088 9.510
0.000 116.0 18.69 9.500
Fit parameter 5 has pegged
14689.9 0 119.3 19.37 1.088 9.510
0.000 116.0 18.68 9.500
Fit parameter 5 has pegged
14689.6 0 119.3 19.37 1.088 9.510
0.000 116.0 18.68 9.500
Fit parameter 5 has pegged
14689.4 0 119.3 19.37 1.088 9.510
0.000 116.0 18.68 9.500
Fit parameter 5 has pegged
14689.3 0 119.3 19.37 1.087 9.510
0.000 116.0 18.68 9.500
Fit parameter 5 has pegged
14689.1 0 119.3 19.37 1.087 9.510
0.000 116.0 18.68 9.500
Fit parameter 5 has pegged
14688.9 0 119.3 19.37 1.087 9.510
0.000 116.0 18.68 9.500
Fit parameter 5 has pegged
14688.7 0 119.3 19.37 1.087 9.510
0.000 116.0 18.67 9.500
Fit parameter 5 has pegged
14688.6 0 119.3 19.37 1.087 9.510
0.000 116.0 18.67 9.500
Fit parameter 5 has pegged
14688.6 0 119.3 19.37 1.087 9.510
0.000 116.0 18.67 9.500
Fit parameter 5 has pegged
14688.3 0 119.3 19.37 1.087 9.510
0.000 116.0 18.67 9.500
Fit parameter 5 has pegged
14688.2 0 119.3 19.37 1.087 9.510
0.000 116.1 18.67 9.500
Fit parameter 5 has pegged
14688.1 0 119.4 19.37 1.086 9.510
0.000 116.1 18.66 9.500
Fit parameter 5 has pegged
14687.9 0 119.4 19.37 1.086 9.510
0.000 116.1 18.66 9.500
Fit parameter 5 has pegged
14687.9 0 119.4 19.37 1.086 9.510
0.000 116.1 18.66 9.500
Fit parameter 5 has pegged
14687.8 0 119.4 19.37 1.086 9.510
0.000 116.1 18.66 9.500
Fit parameter 5 has pegged
14687.6 0 119.4 19.37 1.086 9.510
0.000 116.1 18.66 9.500
Fit parameter 5 has pegged
14687.5 0 119.4 19.37 1.086 9.510
0.000 116.1 18.66 9.500
Fit parameter 5 has pegged
14687.4 0 119.4 19.37 1.086 9.510
0.000 116.1 18.66 9.500
Fit parameter 5 has pegged
14687.4 0 119.4 19.37 1.086 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14687.3 0 119.4 19.37 1.086 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14687.2 0 119.4 19.37 1.086 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14687.1 0 119.4 19.37 1.086 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14687.0 0 119.4 19.37 1.085 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14687.0 0 119.4 19.37 1.085 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14686.9 0 119.4 19.37 1.085 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14686.8 0 119.4 19.37 1.085 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14686.8 0 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.7 0 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.7 0 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
14686.5 0 119.4 19.37 1.085 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14686.5 0 119.4 19.37 1.085 9.510
0.000 116.1 18.65 9.500
Fit parameter 5 has pegged
14686.4 0 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.4 0 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.3 0 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.3 0 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.2 0 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.1 1 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.1 1 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
14686.1 2 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.1 1 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
Fit parameter 5 has pegged
14686.1 4 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
14686.1 6 119.4 19.37 1.085 9.510
0.000 116.1 18.64 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.54E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.26E-02 | 0.13 0.00 0.01 -0.91 -0.39
1.85E-02 | -0.99 -0.06 0.01 -0.09 -0.11
2.54E+00 | 0.06 -1.00 0.00 0.03 -0.04
9.95E-02 | 0.06 0.05 -0.01 0.40 -0.91
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 119.403 +/- 0.168846 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.58855 1
3 3 1 gaussian norm 1.08451 +/- 0.524481E-02 1
4 4 2 powerlaw PhoIndex 9.50952 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 116.140 +/- 0.169023 2
7 7 3 gaussian Sigma keV 18.6356 +/- 0.299170 2
8 3 3 gaussian norm 1.08451 = par 3 2
9 8 4 powerlaw PhoIndex 9.50001 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 14686.06 using 198 PHA bins.
Reduced chi-squared = 77.29507 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 74.549) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 74.549) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9128 photons ( 1.8276E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8749 photons ( 1.7167E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:18 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.541 +/- 5.8880E-03
Net count rate (cts/s) for file 2 2.541 +/- 5.8880E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 638417.8 using 168 PHA bins.
Reduced chi-squared = 3990.111 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21904.98 using 168 PHA bins.
Reduced chi-squared = 136.9061 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2408.72 -3 86.11 14.23 0.1465 0.9054
0.4867 86.02 13.37 0.9003
1756.11 -4 74.27 15.71 0.1639 0.8216
0.3212 75.78 13.94 0.8252
1377.12 -2 80.36 7.026 8.3744E-02 0.8257
0.3740 80.49 8.838 0.8224
1319.90 -3 77.00 15.31 0.1408 0.8512
0.3979 78.15 12.79 0.8515
1127.49 -4 79.77 7.225 9.6597E-02 0.8533
0.4198 80.09 9.113 0.8523
1053.42 -5 77.15 13.89 0.1441 0.8574
0.4094 78.46 11.72 0.8587
785.379 -6 78.63 8.976 0.1185 0.8499
0.4068 79.35 9.603 0.8505
699.012 -7 76.74 11.05 0.1487 0.8496
0.3936 78.66 10.62 0.8509
652.719 -8 77.54 9.793 0.1379 0.8481
0.3955 78.90 9.885 0.8491
628.434 -9 77.03 9.514 0.1459 0.8464
0.3893 78.76 9.824 0.8476
628.402 -10 77.03 9.501 0.1459 0.8463
0.3888 78.77 9.840 0.8474
628.402 -11 77.03 9.502 0.1459 0.8463
0.3888 78.77 9.836 0.8473
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.37E-07 | 0.00 0.00 -0.26 0.53 -0.63 0.00 0.00 0.50
1.00E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.46E-06 | 0.00 0.01 -0.97 -0.12 0.18 0.00 0.01 -0.13
3.84E-04 | 0.02 0.01 -0.02 -0.48 -0.75 0.02 0.01 -0.46
3.74E-02 | -0.12 -0.74 0.00 0.00 0.00 0.09 0.65 0.00
8.01E-02 | -0.25 0.60 0.01 0.00 0.00 -0.32 0.69 0.00
5.34E-02 | 0.91 -0.03 0.00 0.01 0.01 -0.38 0.18 0.01
5.88E-02 | -0.32 -0.28 0.00 -0.01 -0.02 -0.86 -0.27 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0304 +/- 0.235099 1
2 2 1 gaussian Sigma keV 9.50213 +/- 0.233943 1
3 3 1 gaussian norm 0.145903 +/- 0.325717E-02 1
4 4 2 powerlaw PhoIndex 0.846260 +/- 0.998375E-02 1
5 5 2 powerlaw norm 0.388788 +/- 0.156339E-01 1
6 6 3 gaussian LineE keV 78.7684 +/- 0.244995 2
7 7 3 gaussian Sigma keV 9.83604 +/- 0.244075 2
8 3 3 gaussian norm 0.145903 = par 3 2
9 8 4 powerlaw PhoIndex 0.847326 +/- 0.958370E-02 2
10 5 4 powerlaw norm 0.388788 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 628.4020 using 168 PHA bins.
Reduced chi-squared = 3.927512 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.763) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.763) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9898 photons ( 1.1975E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9859 photons ( 1.1968E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
80.19325
=====best line=====
77.0323 0.235351
=====best sigma=====
9.49853 0.234186
=====norm=====
0.145871 0.325923E-02
=====phoindx=====
0.846260 0.998554E-02
=====pow_norm=====
0.388799 0.156340E-01
=====best line=====
78.7686 0.244927
=====best sigma=====
9.83427 0.244068
=====norm=====
0.145871 par
=====phoindx=====
0.847324 0.958542E-02
=====pow_norm=====
0.388799 par
=====redu_chi=====
3.927513
=====area_flux=====
0.9898
=====area_flux_f=====
0.9859
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 14 1 640 2000 1232.5168 0 0.145871 0.325923E-02 9.49853 0.234186 0.846260 0.998554E-02 0.388799 0.156340E-01 0.9898 640 2000 1260.2976 0 0.145871 0.325923E-02 9.83427 0.244068 0.847324 0.958542E-02 0.388799 0.156340E-01 0.9859 3.927513 1
=====redu_chi=====
465.9833
=====best line=====
119.403 0.168846
=====best sigma=====
19.3655 1.58855
=====norm=====
1.08451 0.524481E-02
=====phoindx=====
9.50952 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.140 0.169023
=====best sigma=====
18.6356 0.299170
=====norm=====
1.08451 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
77.29507
=====area_flux=====
0.9128
=====area_flux_f=====
0.8749
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 14 1 1600 3200 1910.448 0 1.08451 0.524481E-02 309.848 25.4168 9.50952 -1.00000 0.00000 -1.00000 0.9128 1600 3200 1858.24 0 1.08451 0.524481E-02 298.1696 4.78672 9.50001 -1.00000 0.00000 -1.00000 0.8749 77.29507 1
=====redu_chi=====
136.9061
=====best line=====
77.0304 0.235099
=====best sigma=====
9.50213 0.233943
=====norm=====
0.145903 0.325717E-02
=====phoindx=====
0.846260 0.998375E-02
=====pow_norm=====
0.388788 0.156339E-01
=====best line=====
78.7684 0.244995
=====best sigma=====
9.83604 0.244075
=====norm=====
0.145903 par
=====phoindx=====
0.847326 0.958370E-02
=====pow_norm=====
0.388788 par
=====redu_chi=====
3.927512
=====area_flux=====
0.9898
=====area_flux_f=====
0.9859
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 14 1 640 2000 1232.4864 0 0.145903 0.325717E-02 9.50213 0.233943 0.846260 0.998375E-02 0.388788 0.156339E-01 0.9898 640 2000 1260.2944 0 0.145903 0.325717E-02 9.83604 0.244075 0.847326 0.958370E-02 0.388788 0.156339E-01 0.9859 3.927512 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 15:52:18 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.471 +/- 5.8071E-03
Net count rate (cts/s) for file 2 2.471 +/- 5.8071E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 574116.8 using 168 PHA bins.
Reduced chi-squared = 3588.230 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10319.39 using 168 PHA bins.
Reduced chi-squared = 64.49617 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1964.67 -3 84.30 14.58 0.1491 0.8566
0.3966 84.90 14.00 0.8540
1470.57 -4 78.42 8.449 7.8813E-02 0.7869
0.3012 80.36 8.786 0.7890
839.349 -1 80.32 9.585 0.1252 0.7933
0.3009 81.98 10.09 0.7936
741.372 -2 79.93 9.274 0.1358 0.8196
0.3295 81.50 9.892 0.8186
703.739 -2 80.04 9.525 0.1394 0.8396
0.3579 81.66 9.864 0.8388
679.330 -2 80.13 9.491 0.1402 0.8553
0.3831 81.75 9.890 0.8546
663.814 -2 80.19 9.545 0.1413 0.8680
0.4046 81.82 9.928 0.8675
653.999 -2 80.25 9.564 0.1421 0.8782
0.4226 81.87 9.949 0.8778
652.585 -3 80.39 9.680 0.1450 0.9089
0.4755 82.02 10.44 0.9077
637.486 -4 80.46 9.659 0.1450 0.9194
0.5017 82.09 9.994 0.9189
636.547 -5 80.46 9.709 0.1460 0.9206
0.5054 82.08 10.12 0.9206
636.530 -1 80.46 9.694 0.1459 0.9205
0.5055 82.08 10.04 0.9206
636.489 -2 80.46 9.695 0.1458 0.9205
0.5054 82.09 10.08 0.9205
636.488 0 80.46 9.695 0.1458 0.9205
0.5054 82.09 10.07 0.9205
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.76E-07 | 0.00 0.00 -0.31 0.57 -0.53 0.00 0.00 0.55
1.07E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.27E-06 | 0.00 0.01 -0.95 -0.17 0.19 0.00 0.02 -0.17
5.93E-04 | 0.02 0.02 -0.02 -0.40 -0.82 0.02 0.09 -0.39
2.95E-03 | 0.00 -0.10 0.02 0.04 0.07 0.01 0.99 0.04
5.07E-02 | 0.84 0.48 0.00 0.01 0.02 -0.24 0.05 0.01
6.23E-02 | -0.49 0.51 0.00 0.00 -0.01 -0.70 0.06 0.00
5.63E-02 | -0.22 0.70 0.01 0.01 0.02 0.67 0.05 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 80.4627 +/- 0.231812 1
2 2 1 gaussian Sigma keV 9.69480 +/- 0.236788 1
3 3 1 gaussian norm 0.145839 +/- 0.332708E-02 1
4 4 2 powerlaw PhoIndex 0.920458 +/- 0.109360E-01 1
5 5 2 powerlaw norm 0.505444 +/- 0.218400E-01 1
6 6 3 gaussian LineE keV 82.0854 +/- 0.242680 2
7 7 3 gaussian Sigma keV 10.0747 +/- 0.583932E-01 2
8 3 3 gaussian norm 0.145839 = par 3 2
9 8 4 powerlaw PhoIndex 0.920534 +/- 0.105087E-01 2
10 5 4 powerlaw norm 0.505444 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 636.4883 using 168 PHA bins.
Reduced chi-squared = 3.978052 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.811) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.811) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9453 photons ( 1.1446E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9451 photons ( 1.1481E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 15:52:19 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.886 +/- 8.9622E-03
Net count rate (cts/s) for file 2 5.886 +/- 8.9622E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.415 +/- 1.0679E-02( 58.0% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.415 +/- 1.0679E-02( 58.0% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 7760971. using 198 PHA bins.
Reduced chi-squared = 40847.21 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 98450.70 using 198 PHA bins.
Reduced chi-squared = 518.1616 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
54102.5 -3 116.3 18.44 0.4383 2.871
0.2243 110.3 18.30 2.826
37932.6 -4 105.5 19.33 1.629 8.150
562.5 105.3 19.21 7.744
36704.4 -1 106.4 19.36 1.622 9.068
198.9 106.2 19.32 9.316
35498.1 -1 107.2 19.37 1.607 2.656
31.93 107.0 19.35 9.453
34213.1 -1 107.9 19.37 1.587 2.731
32.51 107.9 19.36 9.492
33080.1 -1 108.5 19.37 1.570 2.770
41.84 108.7 19.37 9.499
32080.5 -1 109.2 19.37 1.556 2.867
44.23 109.4 19.37 9.500
31161.2 -1 109.8 19.37 1.542 2.905
54.69 110.0 19.37 9.500
30407.9 -1 110.3 19.37 1.531 2.981
53.19 110.6 19.37 9.500
29591.6 -1 110.8 19.37 1.518 3.299
69.13 111.0 19.37 9.500
28843.1 -1 111.3 19.37 1.505 4.110
614.5 111.5 19.37 9.500
27903.3 0 111.5 19.37 1.481 5.399
112.0 111.8 19.37 9.500
24743.8 0 112.8 19.37 1.398 7.779
35.24 113.0 19.37 9.500
22506.1 0 114.2 19.37 1.341 9.435
12.78 114.3 19.37 9.500
20918.4 0 115.5 19.37 1.302 9.492
1.862 115.5 19.37 9.500
19796.0 0 116.6 19.37 1.273 9.496
8.6466E-02 116.6 19.37 9.500
19026.6 0 117.6 19.37 1.251 9.499
2.5400E-02 117.4 19.37 9.500
18498.5 0 118.4 19.37 1.234 9.500
9.3067E-03 118.1 19.37 9.500
18147.6 0 119.1 19.37 1.221 9.500
5.5778E-04 118.6 19.37 9.500
17721.0 0 120.1 19.37 1.201 9.500
1.5932E-05 119.1 19.37 9.500
17600.4 0 120.5 19.37 1.194 9.500
4.1631E-06 119.3 19.37 9.500
17513.9 0 120.8 19.37 1.189 9.500
1.2005E-06 119.4 19.37 9.500
17454.7 0 121.0 19.37 1.185 9.500
4.5775E-07 119.5 19.37 9.500
17377.9 0 121.3 19.37 1.180 9.500
3.3121E-08 119.6 19.37 9.500
17353.3 0 121.4 19.37 1.177 9.500
7.3398E-09 119.7 19.37 9.500
17330.7 0 121.5 19.37 1.175 9.500
8.7683E-10 119.7 19.37 9.500
17318.2 0 121.5 19.37 1.174 9.500
7.1379E-11 119.8 19.37 9.500
17310.4 0 121.6 19.37 1.173 9.500
2.1292E-11 119.8 19.37 9.500
17300.2 0 121.6 19.37 1.172 9.500
8.6363E-12 119.8 19.37 9.500
17294.4 0 121.6 19.37 1.172 9.500
2.2894E-12 119.8 19.37 9.500
17289.3 0 121.7 19.37 1.171 9.500
7.0254E-13 119.8 19.37 9.500
Fit parameter 5 has pegged
17244.2 0 121.6 19.37 1.165 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17234.7 0 121.6 19.37 1.163 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
17212.9 0 121.7 19.37 1.160 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
17193.3 0 121.8 19.37 1.157 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
17175.7 0 121.8 19.37 1.154 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
17159.9 0 121.9 19.37 1.152 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
17145.7 0 121.9 19.37 1.150 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
17133.0 0 122.0 19.37 1.148 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
17121.3 0 122.0 19.37 1.146 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
17110.9 0 122.1 19.37 1.144 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
17101.4 0 122.2 19.37 1.143 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17092.6 0 122.2 19.37 1.141 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17084.7 0 122.2 19.37 1.140 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17077.4 0 122.3 19.37 1.139 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17070.8 0 122.3 19.37 1.137 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17064.7 0 122.4 19.37 1.136 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17059.2 0 122.4 19.37 1.135 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17054.1 0 122.5 19.37 1.134 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17049.4 0 122.5 19.37 1.133 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
17045.2 0 122.5 19.37 1.132 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17041.3 0 122.6 19.37 1.132 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17037.6 0 122.6 19.37 1.131 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17034.2 0 122.6 19.37 1.130 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17031.1 0 122.7 19.37 1.129 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17028.2 0 122.7 19.37 1.129 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17025.6 0 122.7 19.37 1.128 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17023.2 0 122.8 19.37 1.128 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17020.9 0 122.8 19.37 1.127 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17018.8 0 122.8 19.37 1.126 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17016.9 0 122.8 19.37 1.126 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17015.2 0 122.9 19.37 1.126 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17013.5 0 122.9 19.37 1.125 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
17011.9 0 122.9 19.37 1.125 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17010.5 0 122.9 19.37 1.124 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17009.3 0 122.9 19.37 1.124 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17008.0 0 123.0 19.37 1.124 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17006.8 0 123.0 19.37 1.123 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17005.8 0 123.0 19.37 1.123 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17004.8 0 123.0 19.37 1.123 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17003.9 0 123.0 19.37 1.122 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17003.1 0 123.0 19.37 1.122 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17002.3 0 123.0 19.37 1.122 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17001.5 0 123.1 19.37 1.122 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17000.8 0 123.1 19.37 1.121 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
17000.2 0 123.1 19.37 1.121 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16999.5 0 123.1 19.37 1.121 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16999.0 0 123.1 19.37 1.121 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16998.5 0 123.1 19.37 1.121 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16998.0 0 123.1 19.37 1.121 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16997.5 0 123.1 19.37 1.120 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16997.0 0 123.1 19.37 1.120 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16996.7 0 123.2 19.37 1.120 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16996.2 0 123.2 19.37 1.120 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16995.8 0 123.2 19.37 1.120 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16995.6 0 123.2 19.37 1.120 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16995.3 0 123.2 19.37 1.120 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16995.0 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16994.6 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16994.5 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16994.2 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16993.9 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16993.7 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16993.5 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16993.3 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16993.0 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16993.0 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16992.8 0 123.2 19.37 1.119 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16992.5 0 123.3 19.37 1.118 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16992.4 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16992.4 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16992.2 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16992.0 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.9 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.9 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.7 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.6 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.5 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.4 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.4 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.2 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.2 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.1 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.0 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16991.0 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.8 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.8 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
16990.7 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.6 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.5 0 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.5 1 123.3 19.37 1.118 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.4 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.4 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.4 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.3 1 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.2 1 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.2 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.1 2 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.1 4 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
16990.1 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.1 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16990.0 1 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
16990.0 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.9 1 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.9 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.9 1 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.8 1 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.8 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.7 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.7 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.7 2 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.7 2 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
16989.7 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.6 1 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.6 0 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.5 1 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.5 1 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16989.5 4 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
16989.4 4 123.3 19.37 1.117 9.500
0.000 119.9 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.45E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.41E-02 | 0.21 0.00 0.01 -0.97 -0.07
1.74E-02 | -0.98 -0.04 0.01 -0.21 -0.02
2.99E+00 | -0.04 0.94 0.00 -0.03 0.34
1.65E+00 | 0.01 -0.34 0.00 -0.07 0.94
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 123.344 +/- 0.146320 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.68039 1
3 3 1 gaussian norm 1.11699 +/- 0.484140E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 119.886 +/- 0.157560 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.33985 2
8 3 3 gaussian norm 1.11699 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 16989.45 using 198 PHA bins.
Reduced chi-squared = 89.41814 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 86.241) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 86.241) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9895 photons ( 2.0223E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9468 photons ( 1.9003E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_slow.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_fast.pha
with integration time 7.3280E+04
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 15:52:19 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.471 +/- 5.8071E-03
Net count rate (cts/s) for file 2 2.471 +/- 5.8071E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 648055.8 using 168 PHA bins.
Reduced chi-squared = 4050.348 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17159.62 using 168 PHA bins.
Reduced chi-squared = 107.2476 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1743.97 -3 86.26 12.48 0.1368 0.9168
0.4821 86.75 11.65 0.9106
820.130 -4 78.38 10.97 0.1364 0.8743
0.4182 80.69 10.48 0.8755
707.721 -5 81.34 9.815 0.1378 0.9232
0.5032 82.37 9.944 0.9215
652.583 -6 80.41 9.790 0.1465 0.9214
0.5069 82.07 10.87 0.9214
637.242 -7 80.48 9.571 0.1435 0.9176
0.5009 82.10 9.964 0.9177
636.629 -1 80.45 9.685 0.1452 0.9179
0.5005 82.08 10.10 0.9180
636.584 -2 80.45 9.684 0.1455 0.9184
0.5012 82.08 10.02 0.9185
636.502 -3 80.46 9.695 0.1458 0.9198
0.5040 82.08 10.09 0.9198
636.495 0 80.46 9.695 0.1458 0.9198
0.5040 82.08 10.07 0.9199
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.75E-07 | 0.00 0.00 -0.31 0.57 -0.53 0.00 0.00 0.55
1.07E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.27E-06 | 0.00 0.01 -0.95 -0.16 0.19 0.00 0.03 -0.17
5.91E-04 | 0.02 0.02 -0.02 -0.40 -0.82 0.02 0.10 -0.39
2.82E-03 | 0.00 -0.09 0.03 0.04 0.07 0.01 0.99 0.04
5.07E-02 | 0.84 0.48 0.00 0.01 0.02 -0.23 0.05 0.01
6.24E-02 | -0.49 0.50 0.00 -0.01 -0.01 -0.71 0.06 -0.01
5.64E-02 | -0.23 0.71 0.01 0.01 0.02 0.66 0.05 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 80.4588 +/- 0.231869 1
2 2 1 gaussian Sigma keV 9.69457 +/- 0.236889 1
3 3 1 gaussian norm 0.145822 +/- 0.332820E-02 1
4 4 2 powerlaw PhoIndex 0.919804 +/- 0.109364E-01 1
5 5 2 powerlaw norm 0.503999 +/- 0.217786E-01 1
6 6 3 gaussian LineE keV 82.0810 +/- 0.243225 2
7 7 3 gaussian Sigma keV 10.0665 +/- 0.570738E-01 2
8 3 3 gaussian norm 0.145822 = par 3 2
9 8 4 powerlaw PhoIndex 0.919854 +/- 0.105089E-01 2
10 5 4 powerlaw norm 0.503999 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 636.4947 using 168 PHA bins.
Reduced chi-squared = 3.978092 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.811) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.811) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9452 photons ( 1.1445E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9451 photons ( 1.1481E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.3280E+04
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
64.49617
=====best line=====
80.4627 0.231812
=====best sigma=====
9.69480 0.236788
=====norm=====
0.145839 0.332708E-02
=====phoindx=====
0.920458 0.109360E-01
=====pow_norm=====
0.505444 0.218400E-01
=====best line=====
82.0854 0.242680
=====best sigma=====
10.0747 0.583932E-01
=====norm=====
0.145839 par
=====phoindx=====
0.920534 0.105087E-01
=====pow_norm=====
0.505444 par
=====redu_chi=====
3.978052
=====area_flux=====
0.9453
=====area_flux_f=====
0.9451
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 15 1 640 2000 1287.4032 0 0.145839 0.332708E-02 9.69480 0.236788 0.920458 0.109360E-01 0.505444 0.218400E-01 0.9453 640 2000 1313.3664 0 0.145839 0.332708E-02 10.0747 0.583932E-01 0.920534 0.105087E-01 0.505444 0.218400E-01 0.9451 3.978052 1
=====redu_chi=====
518.1616
=====best line=====
123.344 0.146320
=====best sigma=====
19.3655 1.68039
=====norm=====
1.11699 0.484140E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.886 0.157560
=====best sigma=====
19.3655 1.33985
=====norm=====
1.11699 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
89.41814
=====area_flux=====
0.9895
=====area_flux_f=====
0.9468
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 15 1 1600 3200 1973.504 0 1.11699 0.484140E-02 309.848 26.88624 9.50000 -1.00000 0.00000 -1.00000 0.9895 1600 3200 1918.176 0 1.11699 0.484140E-02 309.848 21.4376 9.50000 -1.00000 0.00000 -1.00000 0.9468 89.41814 1
=====redu_chi=====
107.2476
=====best line=====
80.4588 0.231869
=====best sigma=====
9.69457 0.236889
=====norm=====
0.145822 0.332820E-02
=====phoindx=====
0.919804 0.109364E-01
=====pow_norm=====
0.503999 0.217786E-01
=====best line=====
82.0810 0.243225
=====best sigma=====
10.0665 0.570738E-01
=====norm=====
0.145822 par
=====phoindx=====
0.919854 0.105089E-01
=====pow_norm=====
0.503999 par
=====redu_chi=====
3.978092
=====area_flux=====
0.9452
=====area_flux_f=====
0.9451
=====exp=====
7.3280E+04
=====exp=====
7.3280E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 7.3280E+04 15 1 640 2000 1287.3408 0 0.145822 0.332820E-02 9.69457 0.236889 0.919804 0.109364E-01 0.503999 0.217786E-01 0.9452 640 2000 1313.296 0 0.145822 0.332820E-02 10.0665 0.570738E-01 0.919854 0.105089E-01 0.503999 0.217786E-01 0.9451 3.978092 1
rm -rf ae803005010_xspec*.log xspec*.xcm xautosav.xcm ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
rm -rf ae803005010_hxdmkgainhist_tmp
-> hxdmkgainhist_gso successful for ae803005010hxd_2_wel.sff.input_name,f,a,"ae803005010hxd_2_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae803005010hxd_0.hk",,,"HK file name" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" process_id,s,a,"ae803005010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_pin
FFF= ae803005010hxd_2_wel.sff, HK= ae803005010hxd_0.hk TSTART 2.674388336679505E+08, TSOP 2.675295655325973E+08-> hxdmkgainhist_pin successful for ae803005010hxd_2_wel.sff.
read_iomode,s,h,"readonly",,,"HXD event fits input I/O mode : always readonly" gtimode,b,h,y,,,"HXD event fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?" hxdmkgainhist_origin,s,a,"ISAS/JAXA",,,"ORIGIN (ISAS/GSFC)" input_name,fr,a,"ae803005010hxd_2_wel.sff",,,"HXD event fits file name ?" phaextractor_mode,b,a,n,,,"PHA Extractor Mode : yes or no" ghfwrite_mode,b,a,y,,,"GHF FITS write Mode : yes or no" phaextractor_base_name,s,a,"",,,"PHA base name in PHA extractor mode" phaextractor_gti_list,f,a,"",,,"GTI file list in PHA extractor mode" phaextractor_extract_gso,b,h,y,,,"Extract GSO PHA or not : yes or no " phaextractor_extract_pin,b,h,n,,,"Extract PIN PHA or not : yes or no " phaextractor_gso_detchan,i,h,256,,,"Extract GSO Channel" phaextractor_pin_detchan,i,h,256,,,"Extract PIN Channel" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" gso_fitlog_name,f,a,"@hxd_gso_ghf.list",,,"HXD gso fitlog file name" valid_date,s,ql,"2008-07-04",,,"Valid Date (YYYY-MM-DD)for Gain History Files" valid_time,s,a,"15:52:22",,,"Valid Time (hh:mm:ss) for Gain History Files" pin_gainhist_name,f,a,"!ae803005010hxd_2_pin.ghf",,,"HXD pin gainhistory file name" gso_gainhist_name,f,a,"!ae803005010hxd_2_gso.ghf",,,"HXD gso gainhistory file name" gainhistory_iomode,s,h,"no",,,"Add result to gainhistory file: yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDmkgainhist version 2.0.1
-- Functions by HXD team --
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdeventFitsToBnkUtil version 2.0.0
hxdFitsHeaderUtil version 2.0.3
hxdcaldbUtil version 0.7.1
gain history script version 1.3.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmkgainhistWriteGHF version 0.4.5
[ 4] HXDmkgainhistWritePHA version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
|
[ 1] HXDeventFitsRead version 2.0.2
| OK: 1/1
[ 2] HXDleapsecInit version 2.0.1
QUIT: 1 | OK: 1/1
<--- [ 3] HXDmkgainhistWriteGHF version 0.4.5
| OK: 0/1
[ 4] HXDmkgainhistWritePHA version 2.0.0
| OK: 0/0
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 78/5000
buffer size : 120000
buffer used : 11008
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 6 1 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 0 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 2 0 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 0 SINGLE
HXD:PIL:ghfwrite_mode 4 4 1 0 SINGLE
HXD:PIL:pin_fitlog_name 256 11 1 0 SINGLE
HXD:PIL:gso_fitlog_list 256 17 1 0 SINGLE
HXD:PIL:gso_gdalph_name 256 14 1 0 SINGLE
HXD:PIL:gso_annihi_name 256 15 1 0 SINGLE
HXD:PIL:gso_gd150k_name 256 17 1 0 SINGLE
HXD:PIL:valid_date 256 8 2 0 SINGLE
HXD:PIL:valid_time 256 0 0 0 SINGLE
HXD:PIL:pin_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gso_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gainhistory_iomode 256 2 1 0 SINGLE
HXDeventFitsRead:IROW 4 4 1 0 SINGLE
HXD:WEL:EV_TIME 8 8 1 0 SINGLE
HXD:WEL:MTI 4 4 1 0 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 1 0 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 1 0 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 1 0 SINGLE
HXD:WEL:GRADE_RESERV 4 4 1 0 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 1 0 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 1 0 SINGLE
HXD:WEL:DET_TYPE 4 4 1 0 SINGLE
HXD:WEL:PI_FAST 4 4 1 0 SINGLE
HXD:WEL:PI_SLOW 4 4 1 0 SINGLE
HXD:WEL:PI_PIN 16 16 1 0 SINGLE
HXD:WEL:UPI_FAST 8 8 1 0 SINGLE
HXD:WEL:UPI_SLOW 8 8 1 0 SINGLE
HXD:WEL:UPI_PIN 32 32 1 0 SINGLE
HXD:WEL:PIN_ID 4 4 1 0 SINGLE
HXD:WEL:UNITID 4 4 1 0 SINGLE
HXD:WEL:LENGTH_CHK 4 4 1 0 SINGLE
HXD:WEL:WELTIME 4 4 1 0 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 1 0 SINGLE
HXD:WEL:TRIG 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 1 0 SINGLE
HXD:WEL:PHA_FAST 4 4 1 0 SINGLE
HXD:WEL:PHA_SLOW 4 4 1 0 SINGLE
HXD:WEL:PHA_PIN 16 16 1 0 SINGLE
HXD:WEL:PACKET_AETIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 0 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDeventFitsRead:NROW 4 4 1 0 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 0 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 1 0 SINGLE
HXD:WEL:EVENT 204 204 1 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 0.014 0.002 0.016 11.35
[ 2] HXDleapsecInit 0.005 0.002 0.007 4.96
[ 3] HXDmkgainhistWriteGHF 0.061 0.008 0.069 48.94
[ 4] HXDmkgainhistWritePHA 0.003 0.001 0.004 2.84
(others) 0.031 0.014 0.045 31.91
--------------------------------------------------------------------------
TOTAL 0.114 0.027 0.141 100.00
-> hxdmkgainhist successful for ae803005010hxd_2_wel.sff.read_iomode,s,h,"create",,,"HXD event fits input I/O mode : overwrite or create ?" time_change,b,h,n,,,"HXD event fits update TIME : yes or no ?" grade_change,b,h,n,,,"HXD event fits update GRADE : yes or no ?" pi_pmt_change,b,h,y,,,"HXD event fits update PI_FAST PI_SLOW : yes or no ?" pi_pin_change,b,h,y,,,"HXD event fits update PI_PIN0 PI_PIN1 PI_PIN2 PI_PIN3: yes or no ?" gtimode,b,h,n,,,"HXD event fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?" input_name,f,a,"ae803005010hxd_2_wel.sff",,,"HXD event fits file name ?" create_name,f,h,"hxdpi_out.evt",,,"HXD event fits created file name ?" hklist_name,f,a,"@hxdpi_hk.list",,,"HXD HK fits file list name ?" hxd_gsoght_fname,f,a,"CALDB",,,"HXD GSO gain history table name ?" hxd_gsolin_fname,f,a,"CALDB",,,"HXD GSO Calibration file name ?" hxd_pinghf_fname,f,a,"CALDB",,,"HXD PIN gain history file name ?" hxd_pinlin_fname,f,a,"CALDB",,,"HXD PIN Calibration file name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdpi
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDrndInit version 0.2.0
HXDgethkInit version 0.1.0
HXDpi version 2.1.3
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdpiUtil version 2.1.4
hxdeventFitsUtil version 2.0.4
hxdtableFitsUtil version 0.0.9
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
hxdcaldbUtil version 0.7.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDrndInit version 0.2.0
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDpiFITS version 2.1.3
[ 5] HXDpi version 2.1.3
[ 6] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
aste_gethk-2.5: reading filelist 'hxdpi_hk.list'
1: ae803005010hxd_0.hk
2: ae803005010.ehk
HXDpi_init: time duration = 267438833.546656 -- 267529569.532310
Opening GSO calibration files OK
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TEMP_W10_CAL' at hdu=2, col=111 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W11_CAL' at hdu=2, col=112 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W12_CAL' at hdu=2, col=113 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W13_CAL' at hdu=2, col=114 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W20_CAL' at hdu=2, col=115 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W21_CAL' at hdu=2, col=116 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W22_CAL' at hdu=2, col=117 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W23_CAL' at hdu=2, col=118 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W00_CAL' at hdu=2, col=119 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W01_CAL' at hdu=2, col=120 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W02_CAL' at hdu=2, col=121 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W03_CAL' at hdu=2, col=122 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W30_CAL' at hdu=2, col=123 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W31_CAL' at hdu=2, col=124 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W32_CAL' at hdu=2, col=125 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W33_CAL' at hdu=2, col=126 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T10_CAL' at hdu=2, col=127 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T12_CAL' at hdu=2, col=128 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T14_CAL' at hdu=2, col=129 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T21_CAL' at hdu=2, col=130 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T23_CAL' at hdu=2, col=131 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W2_CAL' at hdu=2, col=132 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P1_CAL' at hdu=2, col=133 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T1_CAL' at hdu=2, col=134 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T00_CAL' at hdu=2, col=135 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T02_CAL' at hdu=2, col=136 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T04_CAL' at hdu=2, col=137 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T31_CAL' at hdu=2, col=138 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T33_CAL' at hdu=2, col=139 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W0_CAL' at hdu=2, col=140 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P0_CAL' at hdu=2, col=141 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T3_CAL' at hdu=2, col=142 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP4_CAL' at hdu=2, col=143 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP3_CAL' at hdu=2, col=144 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY4_CAL' at hdu=2, col=145 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY3_CAL' at hdu=2, col=146 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM3_CAL' at hdu=2, col=147 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM4_CAL' at hdu=2, col=148 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR3_CAL' at hdu=2, col=149 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CENTER_CAL' at hdu=2, col=150 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP2_CAL' at hdu=2, col=151 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP1_CAL' at hdu=2, col=152 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY2_CAL' at hdu=2, col=153 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY1_CAL' at hdu=2, col=154 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM1_CAL' at hdu=2, col=155 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM2_CAL' at hdu=2, col=156 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR1_CAL' at hdu=2, col=157 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR2_CAL' at hdu=2, col=158 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'T_SAA_HXD' at hdu=2, col=29 in 'ae803005010.ehk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
Event... 500001 (500000)
Event... 600001 (600000)
Event... 700001 (700000)
Event... 800001 (800000)
Event... 900001 (900000)
Event... 1000001 (1000000)
Event... 1100001 (1100000)
Event... 1200001 (1200000)
Event... 1300001 (1300000)
Event... 1400001 (1400000)
Event... 1500001 (1500000)
Event... 1600001 (1600000)
Event... 1700001 (1700000)
Event... 1800001 (1800000)
Event... 1900001 (1900000)
Event... 2000001 (2000000)
Event... 2100001 (2100000)
Event... 2200001 (2200000)
Event... 2300001 (2300000)
Event... 2400001 (2400000)
Event... 2500001 (2500000)
Event... 2600001 (2600000)
Event... 2700001 (2700000)
Event... 2800001 (2800000)
Event... 2900001 (2900000)
Event... 3000001 (3000000)
Event... 3100001 (3100000)
Event... 3200001 (3200000)
Event... 3300001 (3300000)
Event... 3400001 (3400000)
Event... 3500001 (3500000)
Event... 3600001 (3600000)
Event... 3700001 (3700000)
Event... 3800001 (3800000)
Event... 3900001 (3900000)
Event... 4000001 (4000000)
Event... 4100001 (4100000)
Event... 4200001 (4200000)
Event... 4300001 (4300000)
Event... 4400001 (4400000)
Event... 4500001 (4500000)
Event... 4600001 (4600000)
Event... 4700001 (4700000)
Event... 4800001 (4800000)
Event... 4900001 (4900000)
Event... 5000001 (5000000)
Event... 5100001 (5100000)
Event... 5200001 (5200000)
Event... 5300001 (5300000)
Event... 5400001 (5400000)
Event... 5500001 (5500000)
Event... 5600001 (5600000)
Event... 5700001 (5700000)
Event... 5800001 (5800000)
Event... 5900001 (5900000)
Event... 6000001 (6000000)
Event... 6100001 (6100000)
Event... 6200001 (6200000)
Event... 6300001 (6300000)
Event... 6400001 (6400000)
Event... 6500001 (6500000)
Event... 6600001 (6600000)
Event... 6700001 (6700000)
Event... 6800001 (6800000)
Event... 6900001 (6900000)
Event... 7000001 (7000000)
Event... 7100001 (7100000)
Event... 7200001 (7200000)
Event... 7300001 (7300000)
Event... 7400001 (7400000)
Event... 7500001 (7500000)
Event... 7600001 (7600000)
Event... 7700001 (7700000)
Event... 7800001 (7800000)
Event... 7900001 (7900000)
Event... 8000001 (8000000)
Event... 8100001 (8100000)
Event... 8200001 (8200000)
Event... 8300001 (8300000)
Event... 8400001 (8400000)
Event... 8500001 (8500000)
Event... 8600001 (8600000)
Event... 8700001 (8700000)
Event... 8800001 (8800000)
Event... 8900001 (8900000)
Event... 9000001 (9000000)
Event... 9100001 (9100000)
Event... 9200001 (9200000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 9272382
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 9272381/9272382
[ 2] HXDrndInit version 0.2.0
| OK: 9272381/9272381
[ 3] HXDgethkInit version 0.1.0
| OK: 9272381/9272381
[ 4] HXDpiFITS version 2.1.3
| OK: 9272381/9272381
[ 5] HXDpi version 2.1.3
| OK: 9272381/9272381
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 9272381/9272381
GET: 9272381
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 80/5000
buffer size : 120000
buffer used : 16048
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 13 1 3 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 3 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdpi_yn 4 4 2 3 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 3 SINGLE
HXD:PIL:hxd_gsoght_fname 256 112 1 3 SINGLE
HXD:PIL:hxd_gsolin_fname 256 112 1 3 SINGLE
HXD:PIL:hxd_pinghf_fname 256 112 1 3 SINGLE
HXD:PIL:hxd_pinlin_fname 256 112 1 3 SINGLE
HXD:PIL:CALDB_TYPE:gsoght 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:gsolin 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:pinghf 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:pinlin 4 4 1 3 SINGLE
HXDeventFitsRead:IROW 4 4 9272381 0 SINGLE
HXD:WEL:EV_TIME 8 8 9272381 9272381 SINGLE
HXD:WEL:MTI 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 9272381 9272381 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_RESERV 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 9272381 9272381 SINGLE
HXD:WEL:DET_TYPE 4 4 9272381 9272381 SINGLE
HXD:WEL:PI_FAST 4 4 18544762 9272381 SINGLE
HXD:WEL:PI_SLOW 4 4 18544762 9272381 SINGLE
HXD:WEL:PI_PIN 16 16 18544762 9272381 SINGLE
HXD:WEL:UPI_FAST 8 8 18544762 9272381 SINGLE
HXD:WEL:UPI_SLOW 8 8 18544762 9272381 SINGLE
HXD:WEL:UPI_PIN 32 32 18544762 9272381 SINGLE
HXD:WEL:PIN_ID 4 4 9272381 9272381 SINGLE
HXD:WEL:UNITID 4 4 9272381 9272381 SINGLE
HXD:WEL:LENGTH_CHK 4 4 9272381 9272381 SINGLE
HXD:WEL:WELTIME 4 4 9272381 9272381 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 9272381 9272381 SINGLE
HXD:WEL:TRIG 4 4 9272381 9272381 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 9272381 9272381 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 9272381 9272381 SINGLE
HXD:WEL:PHA_FAST 4 4 9272381 9272381 SINGLE
HXD:WEL:PHA_SLOW 4 4 9272381 9272381 SINGLE
HXD:WEL:PHA_PIN 16 16 9272381 9272381 SINGLE
HXD:WEL:PACKET_AETIME 8 8 9272381 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 9272381 18543592 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 9272381 9272381 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 1 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 14 1 1 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 2 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 4 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDeventFitsRead:NROW 4 4 1 1 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 1 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 1 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 9272381 18544762 SINGLE
HXD:WEL:EVENT 204 204 18544762 18544762 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXDpi:GSO_GHT_NAME 2000 2000 1 1 SINGLE
HXDpi:GSO_LIN_NAME 2000 2000 1 1 SINGLE
HXDpi:PIN_GHF_NAME 2000 2000 1 1 SINGLE
HXDpi:PIN_LIN_NAME 2000 2000 1 1 SINGLE
HXDpi:HKDATA 384 384 22032 9271211 SINGLE
HXDpi:EHKDATA 136 136 22032 9271211 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 219.003 15.794 234.796 38.03
[ 2] HXDrndInit 3.102 5.932 9.034 1.46
[ 3] HXDgethkInit 2.074 5.523 7.597 1.23
[ 4] HXDpiFITS 7.629 5.788 13.417 2.17
[ 5] HXDpi 71.990 5.547 77.537 12.56
[ 6] HXD2ndeventFitsWrite 221.191 53.722 274.913 44.53
(others) 0.020 0.009 0.029 0.00
--------------------------------------------------------------------------
TOTAL 525.008 92.315 617.323 100.00
-> hxdpi successful for ae803005010hxd_2_wel.sff.
read_iomode,s,h,"create",,,"HXD event fits input I/O mode : overwrite or create ?"
time_change,b,h,n,,,"HXD event fits update TIME : yes or no ?"
grade_change,b,h,y,,,"HXD event fits update GRADE : yes or no ?"
pi_pmt_change,b,h,n,,,"HXD event fits update PI_FAST PI_SLOW : yes or no ?"
pi_pin_change,b,h,n,,,"HXD event fits update PI_PIN0 PI_PIN1 PI_PIN2 PI_PIN3: yes or no ?"
gtimode,b,h,n,,,"HXD event fits using GTI : yes or no ?"
gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?"
input_name,f,a,"ae803005010hxd_2_wel.sff",,,"HXD event fits file name ?"
create_name,f,a,"hxdgrade_out.evt",,,"HXD event fits created file name ?"
leapfile,f,a,"CALDB;$ENV{LHEA_DATA}/leapsec.fits",,,"leapsec file name"
hxdgrade_psdsel_fname,f,a,"CALDB",,,"File name for the GRADE PSD Selection."
hxdgrade_pinthres_fname,f,a,"CALDB",,,"File name for the GRADE PIN Threshold."
hxdgrade_psdsel_criteria,r,h,2.1,,,"PSD selection criteria."
use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?"
num_event,i,h,-1,,,"number of event (-1=all,0=exit)"
event_freq,i,h,100000,,,"Event number printout frequency"
anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)"
anl_profile,b,h,yes,,,"Enable ANL module profiling"
chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)"
mode,s,h,"hl",,,""
-> stdout output from hxdgrade
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDgrade version 2.0.4
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
hxdcaldbUtil version 0.7.1
hxdgradeUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgradeFITS version 2.0.4
[ 4] HXDgrade version 2.0.3
[ 5] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
Event... 500001 (500000)
Event... 600001 (600000)
Event... 700001 (700000)
Event... 800001 (800000)
Event... 900001 (900000)
Event... 1000001 (1000000)
Event... 1100001 (1100000)
Event... 1200001 (1200000)
Event... 1300001 (1300000)
Event... 1400001 (1400000)
Event... 1500001 (1500000)
Event... 1600001 (1600000)
Event... 1700001 (1700000)
Event... 1800001 (1800000)
Event... 1900001 (1900000)
Event... 2000001 (2000000)
Event... 2100001 (2100000)
Event... 2200001 (2200000)
Event... 2300001 (2300000)
Event... 2400001 (2400000)
Event... 2500001 (2500000)
Event... 2600001 (2600000)
Event... 2700001 (2700000)
Event... 2800001 (2800000)
Event... 2900001 (2900000)
Event... 3000001 (3000000)
Event... 3100001 (3100000)
Event... 3200001 (3200000)
Event... 3300001 (3300000)
Event... 3400001 (3400000)
Event... 3500001 (3500000)
Event... 3600001 (3600000)
Event... 3700001 (3700000)
Event... 3800001 (3800000)
Event... 3900001 (3900000)
Event... 4000001 (4000000)
Event... 4100001 (4100000)
Event... 4200001 (4200000)
Event... 4300001 (4300000)
Event... 4400001 (4400000)
Event... 4500001 (4500000)
Event... 4600001 (4600000)
Event... 4700001 (4700000)
Event... 4800001 (4800000)
Event... 4900001 (4900000)
Event... 5000001 (5000000)
Event... 5100001 (5100000)
Event... 5200001 (5200000)
Event... 5300001 (5300000)
Event... 5400001 (5400000)
Event... 5500001 (5500000)
Event... 5600001 (5600000)
Event... 5700001 (5700000)
Event... 5800001 (5800000)
Event... 5900001 (5900000)
Event... 6000001 (6000000)
Event... 6100001 (6100000)
Event... 6200001 (6200000)
Event... 6300001 (6300000)
Event... 6400001 (6400000)
Event... 6500001 (6500000)
Event... 6600001 (6600000)
Event... 6700001 (6700000)
Event... 6800001 (6800000)
Event... 6900001 (6900000)
Event... 7000001 (7000000)
Event... 7100001 (7100000)
Event... 7200001 (7200000)
Event... 7300001 (7300000)
Event... 7400001 (7400000)
Event... 7500001 (7500000)
Event... 7600001 (7600000)
Event... 7700001 (7700000)
Event... 7800001 (7800000)
Event... 7900001 (7900000)
Event... 8000001 (8000000)
Event... 8100001 (8100000)
Event... 8200001 (8200000)
Event... 8300001 (8300000)
Event... 8400001 (8400000)
Event... 8500001 (8500000)
Event... 8600001 (8600000)
Event... 8700001 (8700000)
Event... 8800001 (8800000)
Event... 8900001 (8900000)
Event... 9000001 (9000000)
Event... 9100001 (9100000)
Event... 9200001 (9200000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 9272382
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 9272381/9272382
[ 2] HXDleapsecInit version 2.0.1
| OK: 9272381/9272381
[ 3] HXDgradeFITS version 2.0.4
| OK: 9272381/9272381
[ 4] HXDgrade version 2.0.3
| OK: 9272381/9272381
[ 5] HXD2ndeventFitsWrite version 2.0.4
| OK: 9272381/9272381
GET: 9272381
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 75/5000
buffer size : 120000
buffer used : 13008
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 16 1 3 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 3 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdgrade_yn 4 4 2 3 SINGLE
HXD:PIL:hxdgrade_psdsel_fname 256 112 1 3 SINGLE
HXD:PIL:hxdgrade_pinthres_fname 256 112 1 3 SINGLE
HXD:PIL:hxdgrade_psdsel_criteria 8 8 1 0 SINGLE
HXD:PIL:CALDB_TYPE:pinthr 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:psdsel 4 4 1 3 SINGLE
HXDeventFitsRead:IROW 4 4 9272381 0 SINGLE
HXD:WEL:EV_TIME 8 8 9272381 9272381 SINGLE
HXD:WEL:MTI 4 4 9272381 9272381 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 18544762 9272381 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 18544762 9272381 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 18544762 9272381 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 18544762 9272381 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 18544762 9272381 SINGLE
HXD:WEL:GRADE_RESERV 4 4 18544762 9272381 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 18544762 9272381 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 18544762 9272381 SINGLE
HXD:WEL:DET_TYPE 4 4 18544762 9272381 SINGLE
HXD:WEL:PI_FAST 4 4 9272381 9272381 SINGLE
HXD:WEL:PI_SLOW 4 4 9272381 9272381 SINGLE
HXD:WEL:PI_PIN 16 16 9272381 9272381 SINGLE
HXD:WEL:UPI_FAST 8 8 9272381 9272381 SINGLE
HXD:WEL:UPI_SLOW 8 8 9272381 9272381 SINGLE
HXD:WEL:UPI_PIN 32 32 9272381 9272381 SINGLE
HXD:WEL:PIN_ID 4 4 18544762 9272381 SINGLE
HXD:WEL:UNITID 4 4 9272381 9272381 SINGLE
HXD:WEL:LENGTH_CHK 4 4 9272381 9272381 SINGLE
HXD:WEL:WELTIME 4 4 9272381 9272381 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 9272381 9272381 SINGLE
HXD:WEL:TRIG 4 4 9272381 9272381 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 9272381 9272381 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 9272381 9272381 SINGLE
HXD:WEL:PHA_FAST 4 4 9272381 9272381 SINGLE
HXD:WEL:PHA_SLOW 4 4 9272381 9272381 SINGLE
HXD:WEL:PHA_PIN 16 16 9272381 9272381 SINGLE
HXD:WEL:PACKET_AETIME 8 8 9272381 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 9272381 9272381 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 9272381 9272381 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 1 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 17 1 1 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 2 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 4 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDeventFitsRead:NROW 4 4 1 1 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 1 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 9272381 9272381 SINGLE
HXD:WEL:EVENT 204 204 9272381 9272381 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgrade:PSDSEL_FILE_NAME 2000 2000 1 1 SINGLE
HXDgrade:PINTHRES_FILE_NAME 2000 2000 1 1 SINGLE
HXDgrade:PSDSEL_CRITERIA 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 204.608 7.048 211.656 44.10
[ 2] HXDleapsecInit 2.469 5.455 7.924 1.65
[ 3] HXDgradeFITS 1.992 4.718 6.710 1.40
[ 4] HXDgrade 20.142 4.677 24.819 5.17
[ 5] HXD2ndeventFitsWrite 199.519 29.291 228.810 47.67
(others) 0.020 0.009 0.029 0.01
--------------------------------------------------------------------------
TOTAL 428.750 51.198 479.948 100.00
-> hxdgrade successful for ae803005010hxd_2_wel.sff.read_iomode,s,h,"create",,,"HXD event fits input I/O mode : overwrite or create ?" time_change,b,h,y,,,"HXD event fits update TIME : yes or no ?" grade_change,b,h,n,,,"HXD event fits update GRADE : yes or no ?" pi_pmt_change,b,h,n,,,"HXD event fits update PI_FAST PI_SLOW : yes or no ?" pi_pin_change,b,h,n,,,"HXD event fits update PI_PIN0 PI_PIN1 PI_PIN2 PI_PIN3: yes or no ?" gtimode,b,h,y,,,"HXD event fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?" create_name,f,a,"hxdtime.out",,,"HXD event fits created file name ?" input_name,fr,a,"ae803005010hxd_3_wel.fff",,,"HXD event fits file name ?" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" leapfile,f,a,"CALDB",,,"leapsec file name" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" time_convert_mode,i,h,4,,,"HxdTime2aetime mode ?" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdtime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDfwelTime version 2.0.0
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDfwelTimeFITS version 0.3.8
[ 5] HXDfwelTime version 2.0.0
[ 6] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae803005010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 434811
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 434810/434811
[ 2] HXDleapsecInit version 2.0.1
| OK: 434810/434810
[ 3] HXDgethkInit version 0.1.0
| OK: 434810/434810
[ 4] HXDfwelTimeFITS version 0.3.8
| OK: 434810/434810
[ 5] HXDfwelTime version 2.0.0
| OK: 434810/434810
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 434810/434810
GET: 434810
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 80/5000
buffer size : 120000
buffer used : 10912
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 6 1 3 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 11 1 3 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 3 SINGLE
HXD:ftools:hxdtime_yn 4 4 2 4 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 3 SINGLE
HXD:PIL:tim_filename 256 15 1 3 SINGLE
HXD:PIL:time_convert_mode 4 4 1 3 SINGLE
HXDeventFitsRead:IROW 4 4 434810 0 SINGLE
HXD:WEL:EV_TIME 8 8 869620 434810 SINGLE
HXD:WEL:MTI 4 4 869620 434810 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 434810 434810 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_RESERV 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 434810 434810 SINGLE
HXD:WEL:DET_TYPE 4 4 434810 434810 SINGLE
HXD:WEL:PI_FAST 4 4 434810 434810 SINGLE
HXD:WEL:PI_SLOW 4 4 434810 434810 SINGLE
HXD:WEL:PI_PIN 16 16 434810 434810 SINGLE
HXD:WEL:UPI_FAST 8 8 434810 434810 SINGLE
HXD:WEL:UPI_SLOW 8 8 434810 434810 SINGLE
HXD:WEL:UPI_PIN 32 32 434810 434810 SINGLE
HXD:WEL:PIN_ID 4 4 434810 434810 SINGLE
HXD:WEL:UNITID 4 4 434810 868980 SINGLE
HXD:WEL:LENGTH_CHK 4 4 434810 434810 SINGLE
HXD:WEL:WELTIME 4 4 434810 868980 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 434810 434810 SINGLE
HXD:WEL:TRIG 4 4 434810 434810 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 434810 434810 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 434810 434810 SINGLE
HXD:WEL:PHA_FAST 4 4 434810 434810 SINGLE
HXD:WEL:PHA_SLOW 4 4 434810 434810 SINGLE
HXD:WEL:PHA_PIN 16 16 434810 434810 SINGLE
HXD:WEL:PACKET_AETIME 8 8 434810 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 434810 1303150 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 434810 868980 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 1 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 12 1 1 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 2 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 4 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDeventFitsRead:NROW 4 4 1 1 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 2 SINGLE
HXDeventFitsRead:TSTART 8 8 1 0 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 436242 1304430 SINGLE
HXD:WEL:EVENT 204 204 868980 434170 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 3 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 3 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXDfwelTime:HXD_SYS_LATCH_TI 4 4 396 396 SINGLE
HXDfwelTime:HXD_AE_TM_LATCH_TM 4 4 396 396 SINGLE
HXDfwelTime:HXD_WPU_CLK_RATE 4 4 396 434171 SINGLE
HXDfwelTime:HXD_SYS_TIME 8 8 396 0 SINGLE
HXDfwelTime:HXD_HK_TIME 8 8 396 0 SINGLE
HXDfwelTime:PWH 64 0 0 0 SINGLE
HXDfwelTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfwelTime:TIME_INVALID 4 4 434810 0 SINGLE
HXDfwelTime:EV_TIME_TLM 8 8 434810 0 SINGLE
HXDfwelTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 9.738 0.726 10.463 42.16
[ 2] HXDleapsecInit 0.118 0.280 0.398 1.60
[ 3] HXDgethkInit 0.078 0.261 0.339 1.37
[ 4] HXDfwelTimeFITS 0.246 0.313 0.559 2.25
[ 5] HXDfwelTime 2.065 0.269 2.334 9.40
[ 6] HXD2ndeventFitsWrite 9.172 1.529 10.700 43.12
(others) 0.017 0.008 0.025 0.10
--------------------------------------------------------------------------
TOTAL 21.433 3.385 24.818 100.00
-> hxdtime successful for ae803005010hxd_3_wel.sff.input_name,f,a,"ae803005010hxd_3_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae803005010hxd_0.hk",,,"HK file name" gso_gd_fitlog_name,f,a,"gso_gd_ghf.tbl",,,"HXD gso Gd fitlog file name" gso_511_fitlog_name,f,a,"gso_511_ghf.tbl",,,"HXD gso 511keV fitlog file name" gso_152gd_fitlog_name,f,a,"gso_152gd_ghf.tbl",,,"HXD gso 152Gd fitlog file name" process_id,s,a,"ae803005010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" exposure,r,h,1000000,,,"Fitting Exposure(seconds)" fit_start_gd_s,r,h,40,,,"Start Channel of PHA_SLOW in fitting intrinsic Gd line" fit_end_gd_s,r,h,125,,,"End Channel of PHA_SLOW in fitting intrinsic Gd line" fit_start_gd_f,r,h,40,,,"Start Channel of PHA_FAST in fitting intrinsic Gd line" fit_end_gd_f,r,h,125,,,"End Channel of PHA_FAST in fitting intrinsic Gd line" fit_start_511_s,r,h,100,,,"Start Channel of PHA_SLOW in fitting 511 keV line" fit_end_511_s,r,h,200,,,"End Channel of PHA_SLOW in fitting 511 keV line" fit_start_511_f,r,h,100,,,"Start Channel of PHA_FAST in fitting 511 keV line" fit_end_511_f,r,h,200,,,"End Channel of PHA_FAST in fitting 511 keV line" fit_start_152gd_s,r,h,40,,,"Start Channel of PHA_SLOW in fitting 152Gd line" fit_end_152gd_s,r,h,125,,,"End Channel of PHA_SLOW in fitting 152Gd line" fit_start_152gd_f,r,h,40,,,"Start Channel of PHA_FAST in fitting 152Gd line" fit_end_152gd_f,r,h,125,,,"End Channel of PHA_FAST in fitting 152Gd line" hv_w0_volt_min,r,h,700,,,"HV minmum voltage of WPU0 to make GTI" hv_w1_volt_min,r,h,700,,,"HV minmum voltage of WPU1 to make GTI" hv_w2_volt_min,r,h,700,,,"HV minmum voltage of WPU2 to make GTI" hv_w3_volt_min,r,h,700,,,"HV minmum voltage of WPU3 to make GTI" save_tmpfiles,b,h,no,,,"save temporal files (yes/no)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_gso
FFF = ae803005010hxd_3_wel.sff, HK = ae803005010hxd_0.hk
rm -rf ae803005010_hxdmkgainhist_tmp; mkdir ae803005010_hxdmkgainhist_tmp
maketime infile="ae803005010hxd_0.hk+1" outfile="ae803005010_hxdmkgainhist_tmp/total.gti" expr="(HXD_HV_W0_CAL >= 700) && (HXD_HV_W1_CAL >= 700) && (HXD_HV_W2_CAL >= 700) && (HXD_HV_W3_CAL >= 700)" name=anything value=anything time=TIME compact=no prefr=0.5 postfr=0.5
original GTI = ae803005010_hxdmkgainhist_tmp/total.gti
fdump infile="ae803005010_hxdmkgainhist_tmp/total.gti" outfile="ae803005010_hxdmkgainhist_tmp/fdump.log" columns='START,STOP' rows=- prhead=no pagewidth=100 showrow=no
fdump log = ae803005010_hxdmkgainhist_tmp/fdump.log
GTI LIST = ae803005010_hxdmkgainhist_tmp/gtilist
Exposure = 1000000
Making Non-selection fits file now.
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff" expr="(UNITID=="0")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff" expr="(UNITID=="1")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff" expr="(UNITID=="2")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff" expr="(UNITID=="3")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff" expr="(UNITID=="4")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff" expr="(UNITID=="5")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff" expr="(UNITID=="6")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff" expr="(UNITID=="7")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff" expr="(UNITID=="8")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff" expr="(UNITID=="9")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff" expr="(UNITID=="10")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff" expr="(UNITID=="11")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff" expr="(UNITID=="12")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff" expr="(UNITID=="13")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff" expr="(UNITID=="14")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff" expr="(UNITID=="15")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
Making Hit Pattern 8 fits file now.
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff" expr="(UNITID==0) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0111000000000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b11100000000000000011) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff" expr="(UNITID==1) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1011100100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b01110000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff" expr="(UNITID==2) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1101100110001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff" expr="(UNITID==3) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1110000000001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000111) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff" expr="(UNITID==4) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110011100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00111000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff" expr="(UNITID==5) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000101100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00011111000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff" expr="(UNITID==6) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000110111000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000011100000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff" expr="(UNITID==7) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110111011000100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff" expr="(UNITID==8) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0010001101110110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff" expr="(UNITID==9) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000001110110000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000001110000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff" expr="(UNITID==10) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011010000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000111110000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff" expr="(UNITID==11) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011100110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000111000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff" expr="(UNITID==12) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000000000111) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000001110) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff" expr="(UNITID==13) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000110011011) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff" expr="(UNITID==14) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000010011101) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000011100000) == (b00000000000000000000)))"
fselect infile="ae803005010hxd_3_wel.sff" outfile="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff" expr="(UNITID==15) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000000001110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000001111100) == (b00000000000000000000)))"
EVENT SELECTION
genrsp inrfil="none" rmffil="ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp" resol_reln="constant" resol_file="none" fwhm=0 disperse=no tlscpe="SUZAKU" instrm="HXD" resp_reln="linear" resp_file="none" resp_low=-0.5 resp_high=255.5 resp_number=256 resp_break=-1.0 resp_bnumber=0 chan_reln="linear" chan_low=-0.5 chan_high=255.5 chan_number=256 chan_break=-1.0 chan_bnumber=0 efffil="none" detfil="none" filfil="none" max_elements=100000 rsp_min=1.e-6 clobber=yes mode=ql
GENRSP vers 2.01 07/12/06.
... 256 channels in spectrum
... 256 energies in response
100 1 9.90000E+01 9.90000E+01 0.00000E+00 1.00000E+00
200 1 1.99000E+02 1.99000E+02 0.00000E+00 1.00000E+00
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23486 23397 0 89 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23486 23397 0 89 0 0 0
in 2860.0 seconds
Spectrum has 23397 counts for 8.181 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23486 23397 0 89 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23486 23397 0 89 0 0 0
in 2860.0 seconds
Spectrum has 23397 counts for 8.181 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9989 9944 0 45 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9989 9944 0 45 0 0 0
in 2860.0 seconds
Spectrum has 9944 counts for 3.477 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_0_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9989 9944 0 45 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9989 9944 0 45 0 0 0
in 2860.0 seconds
Spectrum has 9944 counts for 3.477 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
24083 23986 0 97 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
24083 23986 0 97 0 0 0
in 2860.0 seconds
Spectrum has 23986 counts for 8.387 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
24083 23986 0 97 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
24083 23986 0 97 0 0 0
in 2860.0 seconds
Spectrum has 23986 counts for 8.387 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
11044 10996 0 48 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
11044 10996 0 48 0 0 0
in 2860.0 seconds
Spectrum has 10996 counts for 3.845 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_1_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
11044 10996 0 48 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
11044 10996 0 48 0 0 0
in 2860.0 seconds
Spectrum has 10996 counts for 3.845 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22310 22227 0 83 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22310 22227 0 83 0 0 0
in 2860.0 seconds
Spectrum has 22227 counts for 7.772 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22310 22227 0 83 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22310 22227 0 83 0 0 0
in 2860.0 seconds
Spectrum has 22227 counts for 7.772 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10177 10134 0 43 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10177 10134 0 43 0 0 0
in 2860.0 seconds
Spectrum has 10134 counts for 3.543 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_2_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10177 10134 0 43 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10177 10134 0 43 0 0 0
in 2860.0 seconds
Spectrum has 10134 counts for 3.543 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23536 23449 0 87 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23536 23449 0 87 0 0 0
in 2860.0 seconds
Spectrum has 23449 counts for 8.199 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23536 23449 0 87 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23536 23449 0 87 0 0 0
in 2860.0 seconds
Spectrum has 23449 counts for 8.199 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10196 10155 0 41 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10196 10155 0 41 0 0 0
in 2860.0 seconds
Spectrum has 10155 counts for 3.551 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_3_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10196 10155 0 41 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10196 10155 0 41 0 0 0
in 2860.0 seconds
Spectrum has 10155 counts for 3.551 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23132 23043 0 89 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23132 23043 0 89 0 0 0
in 2860.0 seconds
Spectrum has 23043 counts for 8.057 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23132 23043 0 89 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23132 23043 0 89 0 0 0
in 2860.0 seconds
Spectrum has 23043 counts for 8.057 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9685 9648 0 37 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9685 9648 0 37 0 0 0
in 2860.0 seconds
Spectrum has 9648 counts for 3.373 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_4_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9685 9648 0 37 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9685 9648 0 37 0 0 0
in 2860.0 seconds
Spectrum has 9648 counts for 3.373 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22762 22684 0 78 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22762 22684 0 78 0 0 0
in 2860.0 seconds
Spectrum has 22684 counts for 7.931 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22762 22684 0 78 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22762 22684 0 78 0 0 0
in 2860.0 seconds
Spectrum has 22684 counts for 7.931 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9633 9595 0 38 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9633 9595 0 38 0 0 0
in 2860.0 seconds
Spectrum has 9595 counts for 3.355 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_5_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9633 9595 0 38 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9633 9595 0 38 0 0 0
in 2860.0 seconds
Spectrum has 9595 counts for 3.355 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23112 23024 0 88 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23112 23024 0 88 0 0 0
in 2860.0 seconds
Spectrum has 23024 counts for 8.050 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23112 23024 0 88 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23112 23024 0 88 0 0 0
in 2860.0 seconds
Spectrum has 23024 counts for 8.050 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9981 9940 0 41 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9981 9940 0 41 0 0 0
in 2860.0 seconds
Spectrum has 9940 counts for 3.476 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_6_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9981 9940 0 41 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9981 9940 0 41 0 0 0
in 2860.0 seconds
Spectrum has 9940 counts for 3.476 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
26784 26692 0 92 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
26784 26692 0 92 0 0 0
in 2860.0 seconds
Spectrum has 26692 counts for 9.333 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
26784 26692 0 92 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
26784 26692 0 92 0 0 0
in 2860.0 seconds
Spectrum has 26692 counts for 9.333 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
11062 11019 0 43 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
11062 11019 0 43 0 0 0
in 2860.0 seconds
Spectrum has 11019 counts for 3.853 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_7_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
11062 11019 0 43 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
11062 11019 0 43 0 0 0
in 2860.0 seconds
Spectrum has 11019 counts for 3.853 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
24270 24192 0 78 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
24270 24192 0 78 0 0 0
in 2860.0 seconds
Spectrum has 24192 counts for 8.459 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
24270 24192 0 78 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
24270 24192 0 78 0 0 0
in 2860.0 seconds
Spectrum has 24192 counts for 8.459 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10256 10226 0 30 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10256 10226 0 30 0 0 0
in 2860.0 seconds
Spectrum has 10226 counts for 3.576 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_8_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10256 10226 0 30 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10256 10226 0 30 0 0 0
in 2860.0 seconds
Spectrum has 10226 counts for 3.576 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22319 22255 0 64 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22319 22255 0 64 0 0 0
in 2860.0 seconds
Spectrum has 22255 counts for 7.781 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22319 22255 0 64 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22319 22255 0 64 0 0 0
in 2860.0 seconds
Spectrum has 22255 counts for 7.781 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9787 9761 0 26 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9787 9761 0 26 0 0 0
in 2860.0 seconds
Spectrum has 9761 counts for 3.413 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_9_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9787 9761 0 26 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9787 9761 0 26 0 0 0
in 2860.0 seconds
Spectrum has 9761 counts for 3.413 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
24052 23951 0 101 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
24052 23951 0 101 0 0 0
in 2860.0 seconds
Spectrum has 23951 counts for 8.374 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
24052 23951 0 101 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
24052 23951 0 101 0 0 0
in 2860.0 seconds
Spectrum has 23951 counts for 8.374 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10043 10012 0 31 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10043 10012 0 31 0 0 0
in 2860.0 seconds
Spectrum has 10012 counts for 3.501 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_10_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10043 10012 0 31 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10043 10012 0 31 0 0 0
in 2860.0 seconds
Spectrum has 10012 counts for 3.501 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
28520 28387 0 133 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
28520 28387 0 133 0 0 0
in 2860.0 seconds
Spectrum has 28387 counts for 9.926 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
28520 28387 0 133 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
28520 28387 0 133 0 0 0
in 2860.0 seconds
Spectrum has 28387 counts for 9.926 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
11585 11539 0 46 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
11585 11539 0 46 0 0 0
in 2860.0 seconds
Spectrum has 11539 counts for 4.035 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_11_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
11585 11539 0 46 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
11585 11539 0 46 0 0 0
in 2860.0 seconds
Spectrum has 11539 counts for 4.035 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
24152 24056 0 96 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
24152 24056 0 96 0 0 0
in 2860.0 seconds
Spectrum has 24056 counts for 8.411 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
24152 24056 0 96 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
24152 24056 0 96 0 0 0
in 2860.0 seconds
Spectrum has 24056 counts for 8.411 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10251 10205 0 46 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10251 10205 0 46 0 0 0
in 2860.0 seconds
Spectrum has 10205 counts for 3.568 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_12_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10251 10205 0 46 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10251 10205 0 46 0 0 0
in 2860.0 seconds
Spectrum has 10205 counts for 3.568 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22990 22893 0 97 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22990 22893 0 97 0 0 0
in 2860.0 seconds
Spectrum has 22893 counts for 8.005 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22990 22893 0 97 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22990 22893 0 97 0 0 0
in 2860.0 seconds
Spectrum has 22893 counts for 8.005 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10237 10195 0 42 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10237 10195 0 42 0 0 0
in 2860.0 seconds
Spectrum has 10195 counts for 3.565 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_13_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10237 10195 0 42 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10237 10195 0 42 0 0 0
in 2860.0 seconds
Spectrum has 10195 counts for 3.565 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
25307 25205 0 102 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
25307 25205 0 102 0 0 0
in 2860.0 seconds
Spectrum has 25205 counts for 8.813 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
25307 25205 0 102 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
25307 25205 0 102 0 0 0
in 2860.0 seconds
Spectrum has 25205 counts for 8.813 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10362 10313 0 49 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10362 10313 0 49 0 0 0
in 2860.0 seconds
Spectrum has 10313 counts for 3.606 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_14_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10362 10313 0 49 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10362 10313 0 49 0 0 0
in 2860.0 seconds
Spectrum has 10313 counts for 3.606 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23785 23686 0 99 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23785 23686 0 99 0 0 0
in 2860.0 seconds
Spectrum has 23686 counts for 8.282 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23785 23686 0 99 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23785 23686 0 99 0 0 0
in 2860.0 seconds
Spectrum has 23686 counts for 8.282 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_slow.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_SLOW" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10073 10023 0 50 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10073 10023 0 50 0 0 0
in 2860.0 seconds
Spectrum has 10023 counts for 3.505 counts/sec
... written the PHA data Extension
extractor filename="ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_fast.pha" timefile="ae803005010_hxdmkgainhist_tmp/ae803005010_gti_0.gti" gtinam="GTI" tcol="TIME" ecol="PHA_FAST" xcolh="UNITID" ycolh="DET_TYPE" xcolf="UNITID" ycolf="UNITID"
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010_hxdmkgainhist_tmp/tmp_ae803005010_15_hitpat8.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10073 10023 0 50 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10073 10023 0 50 0 0 0
in 2860.0 seconds
Spectrum has 10023 counts for 3.505 counts/sec
... written the PHA data Extension
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_slow.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
rbnpha infile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_gti_0_hitpat8_fast.pha" outfile="ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha" cmpmode=linear finchan=256
** rbnpha 2.2.1
... written the PHA data Extension
** rbnpha 2.2.1 completed successfully
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:22 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.477 +/- 3.4867E-02
Net count rate (cts/s) for file 2 3.477 +/- 3.4867E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12965.11 using 168 PHA bins.
Reduced chi-squared = 81.03194 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1068.714 using 168 PHA bins.
Reduced chi-squared = 6.679463 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
664.858 -3 80.98 16.49 0.2753 1.087
0.9256 81.51 15.89 1.079
312.574 -4 74.29 6.389 0.1569 0.8919
0.7178 76.11 7.637 0.9010
248.328 -5 74.91 9.503 0.2369 1.037
1.037 76.88 16.70 1.037
203.409 0 75.37 9.557 0.2539 1.031
1.056 76.94 9.033 1.034
191.195 0 75.59 9.542 0.2529 1.029
1.066 77.06 10.30 1.032
189.423 -1 75.78 9.610 0.2575 1.031
1.075 77.32 11.14 1.034
188.474 -2 75.87 9.664 0.2592 1.046
1.143 77.54 11.11 1.049
188.461 -3 76.05 9.723 0.2622 1.089
1.343 77.79 11.18 1.090
186.844 -4 76.12 9.785 0.2642 1.104
1.453 77.89 11.22 1.107
186.709 -5 76.14 9.799 0.2644 1.105
1.464 77.90 11.23 1.108
186.709 -6 76.15 9.804 0.2645 1.105
1.465 77.90 11.23 1.108
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.95E-05 | 0.00 0.00 -0.25 0.73 -0.22 0.00 0.00 0.60
2.19E-05 | 0.00 0.00 0.03 0.64 0.02 0.00 0.00 -0.77
2.14E-04 | 0.00 0.01 -0.96 -0.17 0.07 0.00 0.06 -0.18
2.14E-02 | 0.01 -0.07 0.05 0.00 -0.07 0.02 0.99 0.00
6.77E-02 | -0.09 -0.05 0.01 0.16 0.96 -0.08 0.07 0.16
5.93E-01 | 0.79 0.60 0.01 0.02 0.09 -0.07 0.04 0.02
7.05E-01 | -0.55 0.76 0.01 0.00 0.01 0.35 0.05 0.00
1.00E+00 | -0.25 0.25 0.01 -0.01 -0.09 -0.93 0.03 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.1472 +/- 0.805045 1
2 2 1 gaussian Sigma keV 9.80368 +/- 0.823675 1
3 3 1 gaussian norm 0.264498 +/- 0.209525E-01 1
4 4 2 powerlaw PhoIndex 1.10470 +/- 0.468874E-01 1
5 5 2 powerlaw norm 1.46452 +/- 0.273634 1
6 6 3 gaussian LineE keV 77.8976 +/- 0.977687 2
7 7 3 gaussian Sigma keV 11.2285 +/- 0.158578 2
8 3 3 gaussian norm 0.264498 = par 3 2
9 8 4 powerlaw PhoIndex 1.10819 +/- 0.450437E-01 2
10 5 4 powerlaw norm 1.46452 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 186.7086 using 168 PHA bins.
Reduced chi-squared = 1.166929 for 160 degrees of freedom
Null hypothesis probability = 7.297E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 74.8786 77.4215 ( -1.26861 , 1.27436 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.3733 79.4125 ( -1.52434 , 1.51485 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.323 photons ( 1.5651E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.307 photons ( 1.5538E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:22 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.181 +/- 5.3483E-02
Net count rate (cts/s) for file 2 8.181 +/- 5.3483E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.704 +/- 6.3844E-02( 57.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.704 +/- 6.3844E-02( 57.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 25461.23 using 198 PHA bins.
Reduced chi-squared = 134.0065 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3717.737 using 198 PHA bins.
Reduced chi-squared = 19.56703 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2639.29 -3 128.1 17.87 0.4411 3.558
2.697 127.5 17.92 3.453
1707.26 -4 103.8 19.30 1.930 7.198
0.5534 102.6 19.25 8.391
1544.19 0 105.7 19.35 1.859 8.625
5.4310E-02 104.8 19.37 9.132
1400.64 0 107.7 19.36 1.802 9.350
1.0501E-02 107.0 19.37 9.384
1272.13 0 109.5 19.36 1.753 9.447
4.2232E-03 109.2 19.37 9.459
1164.68 0 111.2 19.37 1.714 9.484
1.9061E-03 111.1 19.37 9.483
1079.68 0 112.6 19.37 1.682 9.493
9.0789E-04 112.8 19.37 9.492
1014.72 0 113.9 19.37 1.655 9.498
2.1091E-04 114.2 19.37 9.498
966.071 0 114.9 19.37 1.634 9.500
9.9443E-05 115.3 19.37 9.499
929.969 0 115.7 19.37 1.616 9.500
3.5648E-05 116.2 19.37 9.500
903.160 0 116.4 19.37 1.601 9.500
3.0266E-07 117.0 19.37 9.500
883.070 0 117.0 19.37 1.588 9.500
1.6459E-09 117.6 19.37 9.500
847.302 0 118.2 19.37 1.560 9.500
5.1102E-11 118.6 19.37 9.500
840.505 0 118.5 19.37 1.554 9.500
1.9218E-11 118.9 19.37 9.500
835.127 0 118.7 19.37 1.549 9.500
2.9673E-12 119.1 19.37 9.500
831.036 0 118.9 19.37 1.545 9.500
8.9354E-13 119.2 19.37 9.500
Fit parameter 5 has pegged
823.899 0 119.1 19.37 1.534 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
821.355 0 119.2 19.37 1.529 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
819.579 0 119.3 19.37 1.527 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
818.378 0 119.3 19.37 1.525 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
817.427 0 119.4 19.37 1.524 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
816.744 0 119.4 19.37 1.523 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
816.171 0 119.4 19.37 1.522 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
815.720 0 119.5 19.37 1.521 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
815.408 0 119.5 19.37 1.521 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
815.131 0 119.5 19.37 1.520 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
814.917 0 119.5 19.37 1.520 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
814.712 0 119.5 19.37 1.520 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
814.619 0 119.5 19.37 1.520 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
814.543 0 119.5 19.37 1.520 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
814.364 0 119.5 19.37 1.520 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
814.313 0 119.5 19.37 1.519 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
814.282 0 119.5 19.37 1.519 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
810.632 0 119.6 19.37 1.512 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
807.363 0 119.7 19.37 1.505 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
804.429 0 119.8 19.37 1.499 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
801.785 0 119.8 19.37 1.493 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
799.393 0 119.9 19.37 1.488 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
797.225 0 120.0 19.37 1.483 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
795.256 0 120.1 19.37 1.478 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
793.461 0 120.1 19.37 1.474 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
791.823 0 120.2 19.37 1.470 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
790.325 0 120.3 19.37 1.466 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
788.951 0 120.3 19.37 1.463 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
787.691 0 120.4 19.37 1.459 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
786.534 0 120.5 19.37 1.456 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
785.468 0 120.5 19.37 1.453 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
784.488 0 120.6 19.37 1.451 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
783.586 0 120.6 19.37 1.448 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
782.751 0 120.7 19.37 1.446 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
781.979 0 120.8 19.37 1.443 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
781.267 0 120.8 19.37 1.441 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
780.608 0 120.9 19.37 1.439 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
779.998 0 120.9 19.37 1.438 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
779.434 0 121.0 19.37 1.436 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
778.910 0 121.0 19.37 1.434 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
778.425 0 121.1 19.37 1.433 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
777.975 0 121.1 19.37 1.431 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
777.557 0 121.1 19.37 1.430 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
777.169 0 121.2 19.37 1.428 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
776.808 0 121.2 19.37 1.427 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
776.473 0 121.3 19.37 1.426 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
776.161 0 121.3 19.37 1.425 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
775.869 0 121.3 19.37 1.424 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
775.599 0 121.4 19.37 1.423 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
775.347 0 121.4 19.37 1.422 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
775.111 0 121.4 19.37 1.421 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
774.893 0 121.5 19.37 1.420 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
774.688 0 121.5 19.37 1.419 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
774.499 0 121.5 19.37 1.418 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
774.320 0 121.6 19.37 1.417 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
774.153 0 121.6 19.37 1.417 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
773.999 0 121.6 19.37 1.416 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
773.854 0 121.6 19.37 1.415 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
773.717 0 121.7 19.37 1.415 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
773.590 0 121.7 19.37 1.414 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
773.470 0 121.7 19.37 1.414 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
773.358 0 121.7 19.37 1.413 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
773.255 0 121.7 19.37 1.412 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
773.157 0 121.8 19.37 1.412 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
773.065 0 121.8 19.37 1.411 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
772.979 0 121.8 19.37 1.411 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.898 0 121.8 19.37 1.411 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.821 0 121.8 19.37 1.410 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.749 0 121.8 19.37 1.410 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.682 0 121.9 19.37 1.409 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.618 0 121.9 19.37 1.409 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.558 0 121.9 19.37 1.409 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.502 0 121.9 19.37 1.408 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.449 0 121.9 19.37 1.408 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.399 0 121.9 19.37 1.408 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.351 0 121.9 19.37 1.407 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
772.307 0 122.0 19.37 1.407 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
772.266 0 122.0 19.37 1.407 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
772.226 0 122.0 19.37 1.407 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
772.189 0 122.0 19.37 1.406 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
772.154 0 122.0 19.37 1.406 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
772.120 0 122.0 19.37 1.406 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
772.088 0 122.0 19.37 1.406 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
772.058 0 122.0 19.37 1.406 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
772.030 0 122.0 19.37 1.405 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
772.003 0 122.0 19.37 1.405 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.977 0 122.0 19.37 1.405 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.953 0 122.0 19.37 1.405 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.930 0 122.1 19.37 1.405 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.910 0 122.1 19.37 1.405 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.888 0 122.1 19.37 1.404 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.870 0 122.1 19.37 1.404 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.851 0 122.1 19.37 1.404 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.833 0 122.1 19.37 1.404 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.817 0 122.1 19.37 1.404 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.800 0 122.1 19.37 1.404 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.786 0 122.1 19.37 1.404 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
771.772 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.759 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.746 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.733 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.722 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.711 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.700 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.690 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
771.668 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.659 0 122.1 19.37 1.403 9.500
0.000 121.6 19.37 9.500
771.641 0 122.2 19.37 1.403 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.633 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
771.617 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.609 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
771.594 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.589 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
771.576 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.571 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
771.560 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.556 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
771.545 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
771.541 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
771.533 0 122.2 19.37 1.402 9.500
0.000 121.6 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.55E-04 | -0.01 0.00 -1.00 -0.01 0.00
3.43E-01 | 0.51 0.01 0.00 -0.86 -0.03
3.80E-01 | -0.86 -0.03 0.01 -0.51 -0.03
9.21E+01 | -0.03 0.77 0.00 -0.03 0.64
5.12E+01 | 0.01 -0.64 0.00 -0.02 0.77
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 122.193 +/- 0.679365 1
2 2 1 gaussian Sigma keV 19.3655 +/- 8.67214 1
3 3 1 gaussian norm 1.40174 +/- 0.298158E-01 1
4 4 2 powerlaw PhoIndex 9.50017 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 121.615 +/- 0.684845 2
7 7 3 gaussian Sigma keV 19.3655 +/- 8.23823 2
8 3 3 gaussian norm 1.40174 = par 3 2
9 8 4 powerlaw PhoIndex 9.50008 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 771.5332 using 198 PHA bins.
Reduced chi-squared = 4.060701 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.916) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.916) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.225 photons ( 2.4884E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.216 photons ( 2.4630E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:23 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.477 +/- 3.4867E-02
Net count rate (cts/s) for file 2 3.477 +/- 3.4867E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 15523.30 using 168 PHA bins.
Reduced chi-squared = 97.02061 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1486.244 using 168 PHA bins.
Reduced chi-squared = 9.289022 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
378.297 -2 84.61 13.75 0.1727 0.9125
0.6658 85.09 12.36 0.9094
306.068 -3 68.29 15.12 0.2687 1.027
0.9530 72.76 14.08 1.024
227.977 -2 80.47 9.687 0.2236 1.055
1.174 79.36 9.804 1.053
205.126 0 78.21 10.53 0.2314 1.052
1.184 78.60 11.99 1.052
188.770 -1 75.87 10.04 0.2542 1.053
1.186 77.56 10.74 1.056
187.630 -2 76.04 9.910 0.2608 1.064
1.235 77.60 11.22 1.067
187.285 -3 76.13 9.731 0.2624 1.094
1.386 77.84 11.16 1.096
186.744 -4 76.12 9.812 0.2647 1.104
1.458 77.88 11.24 1.107
186.709 -5 76.15 9.794 0.2643 1.105
1.465 77.90 11.22 1.108
186.709 -6 76.15 9.806 0.2646 1.105
1.464 77.90 11.23 1.108
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.95E-05 | 0.00 0.00 -0.25 0.73 -0.22 0.00 0.00 0.60
2.19E-05 | 0.00 0.00 0.03 0.64 0.02 0.00 0.00 -0.77
2.13E-04 | 0.00 0.01 -0.96 -0.17 0.07 0.00 0.06 -0.18
2.13E-02 | 0.01 -0.07 0.05 0.00 -0.07 0.02 0.99 0.00
6.78E-02 | -0.09 -0.05 0.01 0.16 0.96 -0.08 0.07 0.16
5.92E-01 | 0.79 0.60 0.01 0.02 0.09 -0.07 0.04 0.02
7.05E-01 | -0.55 0.76 0.01 0.00 0.01 0.35 0.05 0.00
9.98E-01 | -0.25 0.25 0.01 -0.01 -0.09 -0.93 0.03 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.1455 +/- 0.804793 1
2 2 1 gaussian Sigma keV 9.80638 +/- 0.823256 1
3 3 1 gaussian norm 0.264568 +/- 0.209337E-01 1
4 4 2 powerlaw PhoIndex 1.10469 +/- 0.468708E-01 1
5 5 2 powerlaw norm 1.46444 +/- 0.273632 1
6 6 3 gaussian LineE keV 77.8962 +/- 0.976878 2
7 7 3 gaussian Sigma keV 11.2326 +/- 0.158357 2
8 3 3 gaussian norm 0.264568 = par 3 2
9 8 4 powerlaw PhoIndex 1.10820 +/- 0.450277E-01 2
10 5 4 powerlaw norm 1.46444 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 186.7086 using 168 PHA bins.
Reduced chi-squared = 1.166929 for 160 degrees of freedom
Null hypothesis probability = 7.297E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 74.8786 77.4216 ( -1.26692 , 1.27602 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.3728 79.4121 ( -1.52335 , 1.51594 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.323 photons ( 1.5652E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.307 photons ( 1.5538E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
6.679463
=====best line=====
76.1472 0.805045
=====best sigma=====
9.80368 0.823675
=====norm=====
0.264498 0.209525E-01
=====phoindx=====
1.10470 0.468874E-01
=====pow_norm=====
1.46452 0.273634
=====best line=====
77.8976 0.977687
=====best sigma=====
11.2285 0.158578
=====norm=====
0.264498 par
=====phoindx=====
1.10819 0.450437E-01
=====pow_norm=====
1.46452 par
=====redu_chi=====
1.166929
=====slow error=====
-1.26861 1.27436
=====fast error=====
-1.52434 1.51485
=====area_flux=====
1.323
=====area_flux_f=====
1.307
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
20.34376 24.31352
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 0 1 640 2000 1218.3552 20.34376 0.264498 0.209525E-01 9.80368 0.823675 1.10470 0.468874E-01 1.46452 0.273634 1.323 640 2000 1246.3616 24.31352 0.264498 0.209525E-01 11.2285 0.158578 1.10819 0.450437E-01 1.46452 0.273634 1.307 1.166929 0
=====redu_chi=====
19.56703
=====best line=====
122.193 0.679365
=====best sigma=====
19.3655 8.67214
=====norm=====
1.40174 0.298158E-01
=====phoindx=====
9.50017 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
121.615 0.684845
=====best sigma=====
19.3655 8.23823
=====norm=====
1.40174 par
=====phoindx=====
9.50008 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
4.060701
=====area_flux=====
1.225
=====area_flux_f=====
1.216
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
20.34376 24.31352
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 0 1 1600 3200 1955.088 20.34376 1.40174 0.298158E-01 309.848 138.75424 9.50017 -1.00000 0.00000 -1.00000 1.225 1600 3200 1945.84 24.31352 1.40174 0.298158E-01 309.848 131.81168 9.50008 -1.00000 0.00000 -1.00000 1.216 4.060701 1
=====redu_chi=====
9.289022
=====best line=====
76.1455 0.804793
=====best sigma=====
9.80638 0.823256
=====norm=====
0.264568 0.209337E-01
=====phoindx=====
1.10469 0.468708E-01
=====pow_norm=====
1.46444 0.273632
=====best line=====
77.8962 0.976878
=====best sigma=====
11.2326 0.158357
=====norm=====
0.264568 par
=====phoindx=====
1.10820 0.450277E-01
=====pow_norm=====
1.46444 par
=====redu_chi=====
1.166929
=====slow error=====
-1.26692 1.27602
=====fast error=====
-1.52335 1.51594
=====area_flux=====
1.323
=====area_flux_f=====
1.307
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
20.34352 24.31432
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 0 1 640 2000 1218.328 20.34352 0.264568 0.209337E-01 9.80638 0.823256 1.10469 0.468708E-01 1.46444 0.273632 1.323 640 2000 1246.3392 24.31432 0.264568 0.209337E-01 11.2326 0.158357 1.10820 0.450277E-01 1.46444 0.273632 1.307 1.166929 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:23 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.845 +/- 3.6665E-02
Net count rate (cts/s) for file 2 3.845 +/- 3.6665E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12648.64 using 168 PHA bins.
Reduced chi-squared = 79.05397 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 852.1055 using 168 PHA bins.
Reduced chi-squared = 5.325660 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
459.403 -3 83.37 15.98 0.2529 1.037
0.8334 84.21 15.69 1.032
208.013 -4 76.91 9.123 0.1817 0.8924
0.6357 78.62 9.721 0.9001
207.020 -3 77.57 8.960 0.1924 0.9623
0.7963 80.06 11.50 0.9630
200.182 -4 77.55 9.263 0.1984 0.9887
0.9071 80.09 10.31 0.9906
199.400 -5 77.66 9.187 0.1967 0.9878
0.9175 80.15 10.22 0.9908
199.399 -6 77.64 9.226 0.1970 0.9877
0.9170 80.15 10.23 0.9907
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.68E-05 | 0.00 0.00 -0.25 0.68 -0.34 0.00 0.00 0.60
2.02E-05 | 0.00 0.00 -0.02 -0.67 -0.01 0.00 0.00 0.74
1.78E-04 | 0.00 0.01 -0.97 -0.15 0.10 0.00 0.04 -0.17
2.64E-02 | 0.04 0.00 0.00 -0.23 -0.87 0.04 0.38 -0.22
3.60E-02 | -0.01 -0.07 0.04 0.10 0.35 0.00 0.92 0.10
8.41E-01 | 0.75 0.66 0.01 0.01 0.04 -0.04 0.04 0.01
1.19E+00 | 0.27 -0.25 0.00 0.01 0.03 0.93 -0.04 0.01
9.52E-01 | 0.60 -0.71 -0.01 0.00 -0.01 -0.37 -0.04 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.6351 +/- 0.951487 1
2 2 1 gaussian Sigma keV 9.22594 +/- 0.955981 1
3 3 1 gaussian norm 0.197018 +/- 0.186351E-01 1
4 4 2 powerlaw PhoIndex 0.987683 +/- 0.450393E-01 1
5 5 2 powerlaw norm 0.916973 +/- 0.164657 1
6 6 3 gaussian LineE keV 80.1481 +/- 1.07443 2
7 7 3 gaussian Sigma keV 10.2271 +/- 0.198680 2
8 3 3 gaussian norm 0.197018 = par 3 2
9 8 4 powerlaw PhoIndex 0.990722 +/- 0.432910E-01 2
10 5 4 powerlaw norm 0.916973 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 199.3986 using 168 PHA bins.
Reduced chi-squared = 1.246241 for 160 degrees of freedom
Null hypothesis probability = 1.874E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.1254 79.1822 ( -1.50976 , 1.54710 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 78.4272 81.8343 ( -1.72090 , 1.68614 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.286 photons ( 1.5395E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.272 photons ( 1.5304E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:23 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.387 +/- 5.4152E-02
Net count rate (cts/s) for file 2 8.387 +/- 5.4152E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.542 +/- 6.5397E-02( 54.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.542 +/- 6.5397E-02( 54.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 22619.66 using 198 PHA bins.
Reduced chi-squared = 119.0508 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3382.707 using 198 PHA bins.
Reduced chi-squared = 17.80372 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2546.76 -3 127.7 17.12 0.4203 3.569
2.853 127.1 17.09 3.465
1457.33 -4 107.2 19.36 1.817 8.568
5625. 107.2 19.30 7.629
1327.76 0 108.9 19.36 1.741 9.412
115.6 108.9 19.35 9.067
1220.90 0 110.5 19.37 1.686 9.490
21.31 110.7 19.36 9.330
1134.55 0 112.1 19.37 1.645 9.495
6.637 112.3 19.37 9.442
1067.31 0 113.4 19.37 1.614 9.500
2.906 113.7 19.37 9.497
1016.77 0 114.5 19.37 1.590 9.500
0.2552 114.9 19.37 9.499
979.198 0 115.4 19.37 1.571 9.500
6.2580E-02 115.9 19.37 9.500
951.586 0 116.2 19.37 1.557 9.500
8.3440E-03 116.7 19.37 9.500
931.093 0 116.8 19.37 1.545 9.500
1.5472E-04 117.4 19.37 9.500
915.986 0 117.3 19.37 1.536 9.500
3.1203E-05 117.9 19.37 9.500
904.538 0 117.7 19.37 1.529 9.500
1.4452E-05 118.3 19.37 9.500
895.853 0 118.1 19.37 1.522 9.500
5.7109E-06 118.7 19.37 9.500
889.275 0 118.3 19.37 1.517 9.500
1.1737E-06 118.9 19.37 9.500
876.755 0 118.9 19.37 1.506 9.500
5.5001E-11 119.4 19.37 9.500
874.277 0 119.0 19.37 1.504 9.500
2.6868E-11 119.5 19.37 9.500
872.202 0 119.1 19.37 1.501 9.500
1.2487E-11 119.6 19.37 9.500
870.619 0 119.1 19.37 1.500 9.500
5.2693E-12 119.7 19.37 9.500
869.466 0 119.2 19.37 1.499 9.500
1.6517E-12 119.7 19.37 9.500
Fit parameter 5 has pegged
866.962 0 119.3 19.37 1.495 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
865.888 0 119.3 19.37 1.493 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
865.333 0 119.3 19.37 1.492 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
864.801 0 119.4 19.37 1.491 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
864.446 0 119.4 19.37 1.490 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
864.185 0 119.4 19.37 1.490 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
864.079 0 119.4 19.37 1.490 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
864.021 0 119.4 19.37 1.490 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
863.831 0 119.4 19.37 1.489 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
863.680 0 119.4 19.37 1.489 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
863.622 0 119.4 19.37 1.489 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
859.026 0 119.5 19.37 1.481 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
854.940 0 119.6 19.37 1.473 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
851.292 0 119.7 19.37 1.465 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
848.023 0 119.7 19.37 1.459 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
845.082 0 119.8 19.37 1.453 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
842.427 0 119.9 19.37 1.447 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
840.022 0 120.0 19.37 1.441 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
837.837 0 120.1 19.37 1.437 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
835.850 0 120.1 19.37 1.432 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
834.035 0 120.2 19.37 1.428 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
832.374 0 120.3 19.37 1.424 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
830.853 0 120.4 19.37 1.420 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
829.456 0 120.4 19.37 1.417 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
828.171 0 120.5 19.37 1.413 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
826.989 0 120.6 19.37 1.410 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
825.900 0 120.6 19.37 1.407 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
824.894 0 120.7 19.37 1.405 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
823.966 0 120.8 19.37 1.402 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
823.106 0 120.8 19.37 1.400 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
822.308 0 120.9 19.37 1.398 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
821.571 0 120.9 19.37 1.396 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
820.886 0 121.0 19.37 1.394 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
820.252 0 121.0 19.37 1.392 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
819.662 0 121.1 19.37 1.390 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
819.116 0 121.1 19.37 1.389 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
818.607 0 121.2 19.37 1.387 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
818.134 0 121.2 19.37 1.386 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
817.695 0 121.3 19.37 1.384 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
817.284 0 121.3 19.37 1.383 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
816.901 0 121.4 19.37 1.382 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
816.545 0 121.4 19.37 1.381 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
816.212 0 121.5 19.37 1.380 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
815.903 0 121.5 19.37 1.379 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
815.614 0 121.5 19.37 1.378 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
815.342 0 121.6 19.37 1.377 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
815.090 0 121.6 19.37 1.376 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
814.854 0 121.6 19.37 1.375 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
814.632 0 121.7 19.37 1.374 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
814.426 0 121.7 19.37 1.373 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
814.233 0 121.7 19.37 1.373 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
814.050 0 121.8 19.37 1.372 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
813.880 0 121.8 19.37 1.371 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
813.720 0 121.8 19.37 1.370 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
813.571 0 121.8 19.37 1.370 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
813.431 0 121.9 19.37 1.369 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
813.300 0 121.9 19.37 1.369 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
813.175 0 121.9 19.37 1.368 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
813.059 0 121.9 19.37 1.368 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
812.951 0 122.0 19.37 1.367 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
812.846 0 122.0 19.37 1.367 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
812.750 0 122.0 19.37 1.366 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
812.659 0 122.0 19.37 1.366 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
812.573 0 122.0 19.37 1.365 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
812.493 0 122.1 19.37 1.365 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
812.416 0 122.1 19.37 1.365 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
812.345 0 122.1 19.37 1.364 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
812.277 0 122.1 19.37 1.364 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
812.213 0 122.1 19.37 1.364 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
812.151 0 122.1 19.37 1.363 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
812.094 0 122.1 19.37 1.363 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
812.040 0 122.2 19.37 1.363 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
811.989 0 122.2 19.37 1.363 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
811.941 0 122.2 19.37 1.362 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.896 0 122.2 19.37 1.362 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.853 0 122.2 19.37 1.362 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.812 0 122.2 19.37 1.362 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.773 0 122.2 19.37 1.361 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.736 0 122.2 19.37 1.361 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.701 0 122.2 19.37 1.361 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.667 0 122.3 19.37 1.361 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.636 0 122.3 19.37 1.361 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.606 0 122.3 19.37 1.360 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.577 0 122.3 19.37 1.360 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.551 0 122.3 19.37 1.360 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.526 0 122.3 19.37 1.360 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.501 0 122.3 19.37 1.360 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.479 0 122.3 19.37 1.360 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
811.456 0 122.3 19.37 1.359 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.436 0 122.3 19.37 1.359 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.415 0 122.3 19.37 1.359 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.397 0 122.3 19.37 1.359 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.379 0 122.3 19.37 1.359 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.362 0 122.4 19.37 1.359 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.347 0 122.4 19.37 1.359 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.330 0 122.4 19.37 1.359 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.315 0 122.4 19.37 1.359 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.301 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.288 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.276 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.264 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.252 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.241 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.230 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.221 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
811.200 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.191 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
811.172 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.165 0 122.4 19.37 1.358 9.500
0.000 122.3 19.37 9.500
811.149 0 122.4 19.37 1.357 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.141 0 122.4 19.37 1.357 9.500
0.000 122.3 19.37 9.500
811.128 0 122.4 19.37 1.357 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.122 0 122.4 19.37 1.357 9.500
0.000 122.3 19.37 9.500
811.110 0 122.4 19.37 1.357 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.104 0 122.4 19.37 1.357 9.500
0.000 122.3 19.37 9.500
811.094 0 122.4 19.37 1.357 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
811.088 0 122.4 19.37 1.357 9.500
0.000 122.3 19.37 9.500
811.080 0 122.5 19.37 1.357 9.500
0.000 122.3 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.66E-04 | -0.01 0.00 -1.00 -0.01 0.00
3.87E-01 | 0.50 0.01 0.00 -0.86 -0.02
4.23E-01 | -0.86 -0.03 0.01 -0.50 -0.02
1.14E+02 | -0.03 0.76 0.00 -0.03 0.65
6.05E+01 | 0.01 -0.65 0.00 -0.02 0.76
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 122.451 +/- 0.710739 1
2 2 1 gaussian Sigma keV 19.3655 +/- 9.53291 1
3 3 1 gaussian norm 1.35694 +/- 0.306673E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 122.343 +/- 0.709016 2
7 7 3 gaussian Sigma keV 19.3655 +/- 9.12309 2
8 3 3 gaussian norm 1.35694 = par 3 2
9 8 4 powerlaw PhoIndex 9.50021 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 811.0798 using 198 PHA bins.
Reduced chi-squared = 4.268841 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.117) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.117) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.190 photons ( 2.4197E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.188 photons ( 2.4152E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:24 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.845 +/- 3.6665E-02
Net count rate (cts/s) for file 2 3.845 +/- 3.6665E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 15307.36 using 168 PHA bins.
Reduced chi-squared = 95.67102 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1288.714 using 168 PHA bins.
Reduced chi-squared = 8.054461 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
825.042 -3 85.99 14.30 0.2068 1.096
0.9354 86.30 13.45 1.086
260.070 -4 75.88 15.57 0.2506 0.9950
0.9747 78.43 14.93 1.002
231.787 -5 81.67 7.800 0.1386 1.031
1.129 81.74 9.049 1.031
219.202 -1 78.01 13.27 0.1846 1.031
1.113 80.44 9.722 1.033
203.952 -2 79.64 9.410 0.1893 1.024
1.079 80.46 9.871 1.028
203.384 -3 77.65 10.29 0.2034 1.002
0.9650 80.20 12.27 1.005
200.077 -4 78.02 9.854 0.1967 0.9909
0.9310 80.10 10.19 0.9945
199.431 -5 77.82 9.258 0.1972 0.9896
0.9243 80.16 10.24 0.9926
199.402 -6 77.65 9.274 0.1975 0.9881
0.9185 80.15 10.25 0.9912
199.399 -7 77.66 9.216 0.1969 0.9879
0.9178 80.15 10.22 0.9909
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.68E-05 | 0.00 0.00 -0.25 0.68 -0.34 0.00 0.00 0.60
2.03E-05 | 0.00 0.00 -0.02 -0.67 -0.01 0.00 0.00 0.74
1.80E-04 | 0.00 0.01 -0.97 -0.15 0.10 0.00 0.04 -0.17
2.61E-02 | 0.03 -0.01 0.00 -0.22 -0.83 0.04 0.47 -0.21
3.40E-02 | -0.02 -0.07 0.04 0.12 0.44 0.00 0.88 0.12
8.56E-01 | 0.75 0.65 0.01 0.01 0.04 -0.04 0.04 0.01
1.19E+00 | 0.29 -0.28 0.00 0.01 0.04 0.91 -0.04 0.01
9.66E-01 | 0.59 -0.70 -0.01 0.00 -0.01 -0.40 -0.04 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.6637 +/- 0.960180 1
2 2 1 gaussian Sigma keV 9.21583 +/- 0.965383 1
3 3 1 gaussian norm 0.196908 +/- 0.187488E-01 1
4 4 2 powerlaw PhoIndex 0.987856 +/- 0.451161E-01 1
5 5 2 powerlaw norm 0.917756 +/- 0.165085 1
6 6 3 gaussian LineE keV 80.1486 +/- 1.07351 2
7 7 3 gaussian Sigma keV 10.2224 +/- 0.191698 2
8 3 3 gaussian norm 0.196908 = par 3 2
9 8 4 powerlaw PhoIndex 0.990901 +/- 0.433652E-01 2
10 5 4 powerlaw norm 0.917756 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 199.3986 using 168 PHA bins.
Reduced chi-squared = 1.246241 for 160 degrees of freedom
Null hypothesis probability = 1.874E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.1258 79.1818 ( -1.53790 , 1.51814 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 78.4297 81.8364 ( -1.71888 , 1.68780 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.286 photons ( 1.5396E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.272 photons ( 1.5304E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
5.325660
=====best line=====
77.6351 0.951487
=====best sigma=====
9.22594 0.955981
=====norm=====
0.197018 0.186351E-01
=====phoindx=====
0.987683 0.450393E-01
=====pow_norm=====
0.916973 0.164657
=====best line=====
80.1481 1.07443
=====best sigma=====
10.2271 0.198680
=====norm=====
0.197018 par
=====phoindx=====
0.990722 0.432910E-01
=====pow_norm=====
0.916973 par
=====redu_chi=====
1.246241
=====slow error=====
-1.50976 1.54710
=====fast error=====
-1.72090 1.68614
=====area_flux=====
1.286
=====area_flux_f=====
1.272
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
24.45488 27.25632
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 1 1 640 2000 1242.1616 24.45488 0.197018 0.186351E-01 9.22594 0.955981 0.987683 0.450393E-01 0.916973 0.164657 1.286 640 2000 1282.3696 27.25632 0.197018 0.186351E-01 10.2271 0.198680 0.990722 0.432910E-01 0.916973 0.164657 1.272 1.246241 0
=====redu_chi=====
17.80372
=====best line=====
122.451 0.710739
=====best sigma=====
19.3655 9.53291
=====norm=====
1.35694 0.306673E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
122.343 0.709016
=====best sigma=====
19.3655 9.12309
=====norm=====
1.35694 par
=====phoindx=====
9.50021 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
4.268841
=====area_flux=====
1.190
=====area_flux_f=====
1.188
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
24.45488 27.25632
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 1 1 1600 3200 1959.216 24.45488 1.35694 0.306673E-01 309.848 152.52656 9.50000 -1.00000 0.00000 -1.00000 1.190 1600 3200 1957.488 27.25632 1.35694 0.306673E-01 309.848 145.96944 9.50021 -1.00000 0.00000 -1.00000 1.188 4.268841 1
=====redu_chi=====
8.054461
=====best line=====
77.6637 0.960180
=====best sigma=====
9.21583 0.965383
=====norm=====
0.196908 0.187488E-01
=====phoindx=====
0.987856 0.451161E-01
=====pow_norm=====
0.917756 0.165085
=====best line=====
80.1486 1.07351
=====best sigma=====
10.2224 0.191698
=====norm=====
0.196908 par
=====phoindx=====
0.990901 0.433652E-01
=====pow_norm=====
0.917756 par
=====redu_chi=====
1.246241
=====slow error=====
-1.53790 1.51814
=====fast error=====
-1.71888 1.68780
=====area_flux=====
1.286
=====area_flux_f=====
1.272
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
24.44832 27.25344
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 1 1 640 2000 1242.6192 24.44832 0.196908 0.187488E-01 9.21583 0.965383 0.987856 0.451161E-01 0.917756 0.165085 1.286 640 2000 1282.3776 27.25344 0.196908 0.187488E-01 10.2224 0.191698 0.990901 0.433652E-01 0.917756 0.165085 1.272 1.246241 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:24 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.543 +/- 3.5199E-02
Net count rate (cts/s) for file 2 3.543 +/- 3.5199E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 11325.62 using 168 PHA bins.
Reduced chi-squared = 70.78514 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 961.6399 using 168 PHA bins.
Reduced chi-squared = 6.010249 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
548.604 -3 82.42 15.80 0.2500 1.064
0.9418 83.24 15.76 1.052
176.879 -4 74.24 9.597 0.2361 0.9898
1.013 76.04 9.978 0.9931
170.261 -5 75.98 15.61 0.2481 1.052
1.208 77.79 14.15 1.050
169.265 -3 78.90 8.216 0.2039 1.076
1.395 79.44 9.626 1.074
154.054 0 78.14 9.543 0.2084 1.075
1.399 79.16 11.01 1.073
151.038 0 77.57 11.62 0.2171 1.075
1.397 78.91 10.89 1.074
145.771 -1 77.00 11.24 0.2450 1.077
1.382 78.49 11.64 1.077
145.413 -2 76.86 11.65 0.2592 1.080
1.378 78.36 12.03 1.079
145.392 -3 76.98 11.53 0.2582 1.083
1.397 78.42 11.98 1.082
145.388 -4 76.95 11.59 0.2594 1.084
1.403 78.41 12.02 1.084
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.83E-05 | 0.00 0.00 -0.25 0.68 -0.23 0.00 0.00 0.65
2.06E-05 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
2.52E-04 | 0.00 0.06 -0.96 -0.17 0.07 0.00 0.06 -0.17
2.14E-02 | 0.01 0.76 0.01 0.00 -0.01 -0.01 -0.65 0.00
4.56E-02 | -0.06 -0.52 -0.06 0.09 0.57 -0.07 -0.62 0.08
7.06E-02 | 0.04 -0.38 -0.06 -0.15 -0.78 0.04 -0.44 -0.14
1.04E+00 | -0.81 0.01 0.00 0.00 -0.02 0.59 -0.01 0.00
1.38E+00 | 0.58 -0.03 0.00 0.02 0.09 0.80 -0.03 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.9494 +/- 1.07382 1
2 2 1 gaussian Sigma keV 11.5913 +/- 0.189757 1
3 3 1 gaussian norm 0.259367 +/- 0.253111E-01 1
4 4 2 powerlaw PhoIndex 1.08394 +/- 0.478595E-01 1
5 5 2 powerlaw norm 1.40313 +/- 0.264932 1
6 6 3 gaussian LineE keV 78.4148 +/- 1.12046 2
7 7 3 gaussian Sigma keV 12.0169 +/- 0.203807 2
8 3 3 gaussian norm 0.259367 = par 3 2
9 8 4 powerlaw PhoIndex 1.08357 +/- 0.460689E-01 2
10 5 4 powerlaw norm 1.40313 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 145.3880 using 168 PHA bins.
Reduced chi-squared = 0.9086751 for 160 degrees of freedom
Null hypothesis probability = 0.790
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 75.3011 78.6168 ( -1.64838 , 1.66733 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.6916 80.1173 ( -1.72324 , 1.70249 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.367 photons ( 1.6224E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.368 photons ( 1.6306E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:24 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.772 +/- 5.2128E-02
Net count rate (cts/s) for file 2 7.772 +/- 5.2128E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.228 +/- 6.2899E-02( 54.4% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.228 +/- 6.2899E-02( 54.4% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 31826.01 using 198 PHA bins.
Reduced chi-squared = 167.5053 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 2613.564 using 198 PHA bins.
Reduced chi-squared = 13.75560 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1788.98 -3 129.5 18.34 0.3577 3.465
1.858 129.3 18.35 3.364
1054.43 -4 102.2 19.21 1.210 6.979
0.8956 98.47 19.13 9.342
897.756 -1 103.6 19.34 1.635 9.474
0.4448 102.0 19.27 9.478
842.868 0 104.5 19.36 1.584 9.494
0.1838 103.3 19.32 9.494
794.396 0 105.5 19.36 1.542 9.498
1.4238E-02 104.7 19.35 9.498
750.207 0 106.6 19.37 1.505 9.499
1.6556E-03 106.1 19.36 9.499
710.783 0 107.6 19.37 1.474 9.500
8.1541E-05 107.4 19.36 9.500
676.081 0 108.6 19.37 1.445 9.500
1.6819E-05 108.5 19.36 9.500
646.224 0 109.5 19.37 1.420 9.500
7.6673E-06 109.5 19.36 9.500
621.013 0 110.3 19.37 1.398 9.500
2.6198E-06 110.4 19.37 9.500
599.935 0 111.1 19.37 1.379 9.500
1.2419E-06 111.2 19.37 9.500
582.548 0 111.8 19.37 1.362 9.500
5.0131E-07 111.9 19.37 9.500
547.117 0 113.4 19.37 1.321 9.500
1.8441E-08 113.3 19.37 9.500
539.555 0 113.8 19.37 1.312 9.500
8.1967E-09 113.7 19.37 9.500
533.417 0 114.1 19.37 1.303 9.500
2.9233E-09 113.9 19.37 9.500
528.495 0 114.4 19.37 1.296 9.500
2.3266E-10 114.2 19.37 9.500
524.547 0 114.6 19.37 1.290 9.500
6.1326E-11 114.4 19.37 9.500
521.431 0 114.8 19.37 1.285 9.500
1.7968E-11 114.5 19.37 9.500
518.781 0 115.0 19.37 1.281 9.500
6.9416E-12 114.7 19.37 9.500
516.689 0 115.2 19.37 1.277 9.500
1.3872E-12 114.8 19.37 9.500
Fit parameter 5 has pegged
512.750 0 115.3 19.37 1.267 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
511.392 0 115.4 19.37 1.263 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
510.473 0 115.5 19.37 1.261 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
509.755 0 115.5 19.37 1.259 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
509.248 0 115.5 19.37 1.258 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
508.854 0 115.6 19.37 1.257 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
508.516 0 115.6 19.37 1.256 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
508.244 0 115.6 19.37 1.256 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
507.948 0 115.6 19.37 1.255 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
507.774 0 115.7 19.37 1.255 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
507.650 0 115.7 19.37 1.255 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
507.520 0 115.7 19.37 1.254 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
507.399 0 115.7 19.37 1.254 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
507.296 0 115.7 19.37 1.254 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
507.213 0 115.7 19.37 1.254 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
507.110 0 115.7 19.37 1.253 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
507.079 0 115.7 19.37 1.253 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
507.036 0 115.7 19.37 1.253 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
506.987 0 115.7 19.37 1.253 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
506.967 0 115.7 19.37 1.253 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
506.925 0 115.7 19.37 1.253 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
505.276 0 115.8 19.37 1.248 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
503.772 0 115.9 19.37 1.244 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
502.393 0 115.9 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
501.125 0 116.0 19.37 1.236 9.500
0.000 115.2 19.37 9.500
Fit parameter 5 has pegged
499.959 0 116.1 19.37 1.232 9.500
0.000 115.3 19.37 9.500
Fit parameter 5 has pegged
498.885 0 116.2 19.37 1.229 9.500
0.000 115.3 19.37 9.500
Fit parameter 5 has pegged
497.891 0 116.2 19.37 1.225 9.500
0.000 115.4 19.37 9.500
Fit parameter 5 has pegged
496.971 0 116.3 19.37 1.222 9.500
0.000 115.4 19.37 9.500
Fit parameter 5 has pegged
496.118 0 116.4 19.37 1.220 9.500
0.000 115.5 19.37 9.500
Fit parameter 5 has pegged
495.327 0 116.4 19.37 1.217 9.500
0.000 115.6 19.37 9.500
Fit parameter 5 has pegged
494.592 0 116.5 19.37 1.214 9.500
0.000 115.6 19.37 9.500
Fit parameter 5 has pegged
493.909 0 116.6 19.37 1.212 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
493.274 0 116.6 19.37 1.210 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
492.682 0 116.7 19.37 1.208 9.500
0.000 115.8 19.37 9.500
Fit parameter 5 has pegged
492.131 0 116.8 19.37 1.206 9.500
0.000 115.8 19.37 9.500
Fit parameter 5 has pegged
491.618 0 116.8 19.37 1.204 9.500
0.000 115.9 19.37 9.500
Fit parameter 5 has pegged
491.141 0 116.9 19.37 1.202 9.500
0.000 115.9 19.37 9.500
Fit parameter 5 has pegged
490.694 0 116.9 19.37 1.200 9.500
0.000 115.9 19.37 9.500
Fit parameter 5 has pegged
490.280 0 117.0 19.37 1.198 9.500
0.000 116.0 19.37 9.500
Fit parameter 5 has pegged
489.892 0 117.0 19.37 1.197 9.500
0.000 116.0 19.37 9.500
Fit parameter 5 has pegged
489.531 0 117.1 19.37 1.195 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
489.194 0 117.1 19.37 1.194 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
488.879 0 117.2 19.37 1.193 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
488.585 0 117.2 19.37 1.191 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
488.312 0 117.3 19.37 1.190 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
488.054 0 117.3 19.37 1.189 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
487.815 0 117.3 19.37 1.188 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
487.592 0 117.4 19.37 1.187 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
487.382 0 117.4 19.37 1.186 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
487.187 0 117.5 19.37 1.185 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
487.004 0 117.5 19.37 1.184 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
486.833 0 117.5 19.37 1.183 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
486.673 0 117.6 19.37 1.182 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
486.524 0 117.6 19.37 1.181 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
486.383 0 117.6 19.37 1.180 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
486.253 0 117.7 19.37 1.180 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
486.130 0 117.7 19.37 1.179 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
486.015 0 117.7 19.37 1.178 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
485.907 0 117.7 19.37 1.178 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
485.806 0 117.8 19.37 1.177 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
485.711 0 117.8 19.37 1.176 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
485.622 0 117.8 19.37 1.176 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
485.539 0 117.8 19.37 1.175 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
485.461 0 117.9 19.37 1.175 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
485.388 0 117.9 19.37 1.174 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
485.319 0 117.9 19.37 1.174 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
485.253 0 117.9 19.37 1.173 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
485.193 0 117.9 19.37 1.173 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
485.135 0 117.9 19.37 1.172 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
485.082 0 118.0 19.37 1.172 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
485.031 0 118.0 19.37 1.171 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
484.982 0 118.0 19.37 1.171 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
484.938 0 118.0 19.37 1.171 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
484.895 0 118.0 19.37 1.170 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.856 0 118.0 19.37 1.170 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.818 0 118.1 19.37 1.170 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.782 0 118.1 19.37 1.169 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.748 0 118.1 19.37 1.169 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.717 0 118.1 19.37 1.169 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.687 0 118.1 19.37 1.168 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.659 0 118.1 19.37 1.168 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.633 0 118.1 19.37 1.168 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.607 0 118.1 19.37 1.168 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.583 0 118.1 19.37 1.167 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.561 0 118.2 19.37 1.167 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.540 0 118.2 19.37 1.167 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.519 0 118.2 19.37 1.167 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
484.500 0 118.2 19.37 1.167 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.482 0 118.2 19.37 1.166 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.465 0 118.2 19.37 1.166 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.449 0 118.2 19.37 1.166 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.433 0 118.2 19.37 1.166 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.419 0 118.2 19.37 1.166 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.405 0 118.2 19.37 1.166 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.392 0 118.2 19.37 1.165 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.380 0 118.2 19.37 1.165 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.367 0 118.2 19.37 1.165 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.356 0 118.3 19.37 1.165 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.346 0 118.3 19.37 1.165 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.336 0 118.3 19.37 1.165 9.500
0.000 116.9 19.37 9.500
484.313 0 118.3 19.37 1.165 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.304 0 118.3 19.37 1.164 9.500
0.000 116.9 19.37 9.500
484.285 0 118.3 19.37 1.164 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.277 0 118.3 19.37 1.164 9.500
0.000 116.9 19.37 9.500
484.261 0 118.3 19.37 1.164 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
484.254 0 118.3 19.37 1.164 9.500
0.000 116.9 19.37 9.500
484.239 0 118.3 19.37 1.164 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
484.234 0 118.3 19.37 1.164 9.500
0.000 117.0 19.37 9.500
484.220 0 118.3 19.37 1.163 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
484.216 0 118.3 19.37 1.163 9.500
0.000 117.0 19.37 9.500
484.204 0 118.3 19.37 1.163 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
484.201 0 118.3 19.37 1.163 9.500
0.000 117.0 19.37 9.500
484.191 0 118.3 19.37 1.163 9.500
0.000 117.0 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.58E-04 | -0.01 0.00 -1.00 -0.01 0.00
5.09E-01 | 0.62 0.02 0.00 -0.78 -0.03
5.92E-01 | -0.78 -0.04 0.01 -0.62 -0.04
1.42E+02 | -0.04 0.74 0.00 -0.04 0.67
6.81E+01 | 0.02 -0.67 0.00 -0.03 0.74
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.343 +/- 0.908361 1
2 2 1 gaussian Sigma keV 19.3655 +/- 10.4323 1
3 3 1 gaussian norm 1.16308 +/- 0.332827E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 116.973 +/- 0.931746 2
7 7 3 gaussian Sigma keV 19.3655 +/- 10.0560 2
8 3 3 gaussian norm 1.16308 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 484.1907 using 198 PHA bins.
Reduced chi-squared = 2.548372 for 190 degrees of freedom
Null hypothesis probability = 1.347E-27
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.458) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.458) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9632 photons ( 1.9182E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9415 photons ( 1.8626E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:25 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.543 +/- 3.5199E-02
Net count rate (cts/s) for file 2 3.543 +/- 3.5199E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13721.48 using 168 PHA bins.
Reduced chi-squared = 85.75925 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1397.805 using 168 PHA bins.
Reduced chi-squared = 8.736284 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1176.70 -3 85.89 13.24 0.1904 1.141
1.081 86.06 12.98 1.123
184.213 -4 73.42 16.26 0.2984 1.141
1.700 75.62 15.91 1.145
177.561 -1 78.93 9.339 0.2703 1.138
1.735 79.57 9.959 1.137
175.859 -1 77.63 16.29 0.2609 1.135
1.740 78.99 15.21 1.135
152.166 0 77.69 10.36 0.2704 1.136
1.731 78.95 13.13 1.136
146.556 -1 77.15 11.73 0.2690 1.134
1.725 78.86 12.31 1.134
146.133 -2 77.25 11.74 0.2660 1.125
1.661 78.72 12.20 1.125
145.601 -3 77.08 11.65 0.2615 1.096
1.472 78.52 12.08 1.097
145.393 -4 76.98 11.58 0.2594 1.085
1.409 78.43 12.02 1.085
145.387 -5 76.96 11.58 0.2592 1.084
1.405 78.42 12.01 1.084
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.84E-05 | 0.00 0.00 -0.25 0.69 -0.23 0.00 0.00 0.64
2.07E-05 | 0.00 0.00 -0.01 -0.68 0.00 0.00 0.00 0.73
2.54E-04 | 0.00 0.06 -0.96 -0.17 0.07 0.00 0.06 -0.17
2.17E-02 | 0.01 0.76 0.01 0.00 -0.01 -0.01 -0.65 0.00
4.62E-02 | -0.06 -0.52 -0.06 0.09 0.57 -0.07 -0.62 0.08
7.20E-02 | 0.04 -0.39 -0.06 -0.15 -0.78 0.04 -0.44 -0.14
1.05E+00 | -0.80 0.01 0.00 0.00 -0.01 0.60 -0.01 0.00
1.39E+00 | 0.59 -0.03 0.00 0.02 0.10 0.80 -0.03 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.9639 +/- 1.07778 1
2 2 1 gaussian Sigma keV 11.5769 +/- 0.191567 1
3 3 1 gaussian norm 0.259168 +/- 0.254887E-01 1
4 4 2 powerlaw PhoIndex 1.08408 +/- 0.480016E-01 1
5 5 2 powerlaw norm 1.40469 +/- 0.267899 1
6 6 3 gaussian LineE keV 78.4207 +/- 1.12125 2
7 7 3 gaussian Sigma keV 12.0096 +/- 0.205138 2
8 3 3 gaussian norm 0.259168 = par 3 2
9 8 4 powerlaw PhoIndex 1.08380 +/- 0.462121E-01 2
10 5 4 powerlaw norm 1.40469 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 145.3875 using 168 PHA bins.
Reduced chi-squared = 0.9086717 for 160 degrees of freedom
Null hypothesis probability = 0.790
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 75.3042 78.6184 ( -1.65968 , 1.65448 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.6954 80.1211 ( -1.72524 , 1.70044 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.367 photons ( 1.6229E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.368 photons ( 1.6305E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
6.010249
=====best line=====
76.9494 1.07382
=====best sigma=====
11.5913 0.189757
=====norm=====
0.259367 0.253111E-01
=====phoindx=====
1.08394 0.478595E-01
=====pow_norm=====
1.40313 0.264932
=====best line=====
78.4148 1.12046
=====best sigma=====
12.0169 0.203807
=====norm=====
0.259367 par
=====phoindx=====
1.08357 0.460689E-01
=====pow_norm=====
1.40313 par
=====redu_chi=====
0.9086751
=====slow error=====
-1.64838 1.66733
=====fast error=====
-1.72324 1.70249
=====area_flux=====
1.367
=====area_flux_f=====
1.368
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
26.52568 27.40584
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 2 1 640 2000 1231.1904 26.52568 0.259367 0.253111E-01 11.5913 0.189757 1.08394 0.478595E-01 1.40313 0.264932 1.367 640 2000 1254.6368 27.40584 0.259367 0.253111E-01 12.0169 0.203807 1.08357 0.460689E-01 1.40313 0.264932 1.368 0.9086751 0
=====redu_chi=====
13.75560
=====best line=====
118.343 0.908361
=====best sigma=====
19.3655 10.4323
=====norm=====
1.16308 0.332827E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.973 0.931746
=====best sigma=====
19.3655 10.0560
=====norm=====
1.16308 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
2.548372
=====area_flux=====
0.9632
=====area_flux_f=====
0.9415
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
26.52568 27.40584
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 2 1 1600 3200 1893.488 26.52568 1.16308 0.332827E-01 309.848 166.9168 9.50000 -1.00000 0.00000 -1.00000 0.9632 1600 3200 1871.568 27.40584 1.16308 0.332827E-01 309.848 160.896 9.50000 -1.00000 0.00000 -1.00000 0.9415 2.548372 0
=====redu_chi=====
8.736284
=====best line=====
76.9639 1.07778
=====best sigma=====
11.5769 0.191567
=====norm=====
0.259168 0.254887E-01
=====phoindx=====
1.08408 0.480016E-01
=====pow_norm=====
1.40469 0.267899
=====best line=====
78.4207 1.12125
=====best sigma=====
12.0096 0.205138
=====norm=====
0.259168 par
=====phoindx=====
1.08380 0.462121E-01
=====pow_norm=====
1.40469 par
=====redu_chi=====
0.9086717
=====slow error=====
-1.65968 1.65448
=====fast error=====
-1.72524 1.70044
=====area_flux=====
1.367
=====area_flux_f=====
1.368
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
26.51328 27.40544
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 2 1 640 2000 1231.4224 26.51328 0.259168 0.254887E-01 11.5769 0.191567 1.08408 0.480016E-01 1.40469 0.267899 1.367 640 2000 1254.7312 27.40544 0.259168 0.254887E-01 12.0096 0.205138 1.08380 0.462121E-01 1.40469 0.267899 1.368 0.9086717 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:25 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.551 +/- 3.5235E-02
Net count rate (cts/s) for file 2 3.551 +/- 3.5235E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12623.91 using 168 PHA bins.
Reduced chi-squared = 78.89942 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 993.9706 using 168 PHA bins.
Reduced chi-squared = 6.212316 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
475.084 -3 83.41 16.54 0.2391 1.038
0.8658 83.73 16.32 1.031
162.209 -3 74.79 9.148 0.1455 0.8769
0.6342 75.97 9.250 0.8846
155.727 -3 75.96 7.399 0.1554 0.9538
0.8142 78.23 7.552 0.9531
145.076 -4 75.53 8.245 0.1627 0.9764
0.9198 77.76 7.875 0.9768
144.446 -5 75.58 8.139 0.1626 0.9753
0.9271 77.75 7.884 0.9769
144.445 -6 75.56 8.167 0.1628 0.9751
0.9264 77.74 7.892 0.9768
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.54E-05 | 0.00 0.00 -0.23 0.67 -0.33 0.00 0.00 0.62
1.83E-05 | 0.00 0.00 -0.01 -0.68 0.00 0.00 0.00 0.73
1.44E-04 | 0.00 0.01 -0.97 -0.15 0.09 0.00 0.01 -0.16
2.56E-02 | 0.03 0.01 -0.01 -0.25 -0.94 0.03 0.01 -0.24
6.01E-01 | -0.08 -0.61 0.00 0.00 0.01 0.16 0.77 0.00
1.14E+00 | -0.44 0.68 0.01 0.00 -0.01 -0.24 0.54 0.00
9.18E-01 | -0.89 -0.30 0.00 -0.01 -0.03 0.03 -0.33 -0.01
8.15E-01 | -0.07 0.28 0.00 0.01 0.03 0.96 0.02 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.5648 +/- 0.978751 1
2 2 1 gaussian Sigma keV 8.16726 +/- 0.945903 1
3 3 1 gaussian norm 0.162806 +/- 0.156031E-01 1
4 4 2 powerlaw PhoIndex 0.975086 +/- 0.416196E-01 1
5 5 2 powerlaw norm 0.926367 +/- 0.155364 1
6 6 3 gaussian LineE keV 77.7432 +/- 0.910294 2
7 7 3 gaussian Sigma keV 7.89194 +/- 0.891149 2
8 3 3 gaussian norm 0.162806 = par 3 2
9 8 4 powerlaw PhoIndex 0.976788 +/- 0.398995E-01 2
10 5 4 powerlaw norm 0.926367 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 144.4452 using 168 PHA bins.
Reduced chi-squared = 0.9027823 for 160 degrees of freedom
Null hypothesis probability = 0.806
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 73.9841 77.1463 ( -1.58064 , 1.58155 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.2604 79.2034 ( -1.48284 , 1.46021 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.324 photons ( 1.5786E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.316 photons ( 1.5741E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:25 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.199 +/- 5.3542E-02
Net count rate (cts/s) for file 2 8.199 +/- 5.3542E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.648 +/- 6.4096E-02( 56.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.648 +/- 6.4096E-02( 56.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 31024.48 using 198 PHA bins.
Reduced chi-squared = 163.2867 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3133.644 using 198 PHA bins.
Reduced chi-squared = 16.49286 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2096.56 -3 129.1 18.64 0.4033 3.494
1.947 128.3 18.83 3.390
1295.03 -4 101.5 19.15 1.362 7.039
6312. 97.55 19.25 8.032
1091.22 -1 102.9 19.28 1.857 9.076
1668. 101.4 19.32 9.459
1027.63 0 103.9 19.33 1.799 9.375
565.7 102.8 19.35 9.482
969.785 0 104.9 19.35 1.751 9.496
94.91 104.2 19.36 9.492
917.492 0 106.0 19.36 1.709 9.498
41.76 105.6 19.37 9.500
869.796 0 107.1 19.36 1.672 9.500
10.51 106.8 19.37 9.500
827.318 0 108.1 19.37 1.639 9.500
1.438 108.0 19.37 9.500
790.220 0 109.1 19.37 1.610 9.500
0.1719 109.0 19.37 9.500
758.557 0 110.0 19.37 1.584 9.500
8.4030E-02 110.0 19.37 9.500
731.886 0 110.8 19.37 1.561 9.500
3.5913E-02 110.8 19.37 9.500
709.622 0 111.5 19.37 1.540 9.500
9.8002E-03 111.5 19.37 9.500
691.477 0 112.2 19.37 1.522 9.500
2.7881E-03 112.1 19.37 9.500
676.660 0 112.8 19.37 1.507 9.500
1.3558E-03 112.6 19.37 9.500
664.616 0 113.3 19.37 1.493 9.500
5.1403E-04 113.1 19.37 9.500
654.987 0 113.7 19.37 1.482 9.500
4.3172E-05 113.4 19.37 9.500
635.218 0 114.6 19.37 1.454 9.500
1.5534E-07 114.1 19.37 9.500
631.019 0 114.8 19.37 1.447 9.500
5.8415E-08 114.3 19.37 9.500
627.597 0 115.0 19.37 1.441 9.500
9.2078E-09 114.4 19.37 9.500
624.839 0 115.2 19.37 1.437 9.500
2.9932E-09 114.6 19.37 9.500
622.646 0 115.3 19.37 1.433 9.500
1.4262E-09 114.7 19.37 9.500
620.867 0 115.4 19.37 1.430 9.500
6.3906E-10 114.7 19.37 9.500
619.378 0 115.5 19.37 1.427 9.500
2.4273E-10 114.8 19.37 9.500
618.142 0 115.6 19.37 1.425 9.500
4.3328E-11 114.9 19.37 9.500
617.157 0 115.7 19.37 1.423 9.500
1.8386E-11 114.9 19.37 9.500
616.313 0 115.7 19.37 1.421 9.500
5.8505E-12 115.0 19.37 9.500
615.633 0 115.8 19.37 1.420 9.500
2.7116E-12 115.0 19.37 9.500
615.033 0 115.8 19.37 1.419 9.500
1.1399E-12 115.0 19.37 9.500
Fit parameter 5 has pegged
613.353 0 115.8 19.37 1.412 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
612.858 0 115.8 19.37 1.409 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
612.676 0 115.8 19.37 1.408 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
612.592 0 115.8 19.37 1.408 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
612.496 0 115.8 19.37 1.407 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
610.714 0 115.9 19.37 1.402 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
609.083 0 116.0 19.37 1.397 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
607.583 0 116.0 19.37 1.393 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
606.203 0 116.1 19.37 1.389 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
604.930 0 116.2 19.37 1.385 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
603.754 0 116.3 19.37 1.381 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
602.665 0 116.3 19.37 1.378 9.500
0.000 115.2 19.37 9.500
Fit parameter 5 has pegged
601.657 0 116.4 19.37 1.375 9.500
0.000 115.3 19.37 9.500
Fit parameter 5 has pegged
600.721 0 116.5 19.37 1.371 9.500
0.000 115.3 19.37 9.500
Fit parameter 5 has pegged
599.854 0 116.6 19.37 1.369 9.500
0.000 115.4 19.37 9.500
Fit parameter 5 has pegged
599.047 0 116.6 19.37 1.366 9.500
0.000 115.4 19.37 9.500
Fit parameter 5 has pegged
598.297 0 116.7 19.37 1.363 9.500
0.000 115.5 19.37 9.500
Fit parameter 5 has pegged
597.601 0 116.7 19.37 1.361 9.500
0.000 115.5 19.37 9.500
Fit parameter 5 has pegged
596.953 0 116.8 19.37 1.359 9.500
0.000 115.6 19.37 9.500
Fit parameter 5 has pegged
596.350 0 116.9 19.37 1.356 9.500
0.000 115.6 19.37 9.500
Fit parameter 5 has pegged
595.790 0 116.9 19.37 1.354 9.500
0.000 115.6 19.37 9.500
Fit parameter 5 has pegged
595.268 0 117.0 19.37 1.352 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
594.781 0 117.0 19.37 1.350 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
594.329 0 117.1 19.37 1.349 9.500
0.000 115.8 19.37 9.500
Fit parameter 5 has pegged
593.906 0 117.1 19.37 1.347 9.500
0.000 115.8 19.37 9.500
Fit parameter 5 has pegged
593.514 0 117.2 19.37 1.345 9.500
0.000 115.8 19.37 9.500
Fit parameter 5 has pegged
593.148 0 117.2 19.37 1.344 9.500
0.000 115.9 19.37 9.500
Fit parameter 5 has pegged
592.804 0 117.3 19.37 1.342 9.500
0.000 115.9 19.37 9.500
Fit parameter 5 has pegged
592.486 0 117.3 19.37 1.341 9.500
0.000 115.9 19.37 9.500
Fit parameter 5 has pegged
592.190 0 117.4 19.37 1.340 9.500
0.000 116.0 19.37 9.500
Fit parameter 5 has pegged
591.912 0 117.4 19.37 1.338 9.500
0.000 116.0 19.37 9.500
Fit parameter 5 has pegged
591.655 0 117.4 19.37 1.337 9.500
0.000 116.0 19.37 9.500
Fit parameter 5 has pegged
591.414 0 117.5 19.37 1.336 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
591.189 0 117.5 19.37 1.335 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
590.977 0 117.5 19.37 1.334 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
590.782 0 117.6 19.37 1.333 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
590.598 0 117.6 19.37 1.332 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
590.428 0 117.6 19.37 1.331 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
590.268 0 117.7 19.37 1.330 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
590.118 0 117.7 19.37 1.329 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
589.978 0 117.7 19.37 1.328 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
589.848 0 117.8 19.37 1.327 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
589.725 0 117.8 19.37 1.327 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
589.611 0 117.8 19.37 1.326 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
589.503 0 117.8 19.37 1.325 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
589.403 0 117.9 19.37 1.325 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
589.308 0 117.9 19.37 1.324 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
589.221 0 117.9 19.37 1.323 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
589.137 0 117.9 19.37 1.323 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
589.061 0 117.9 19.37 1.322 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
588.987 0 118.0 19.37 1.322 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
588.919 0 118.0 19.37 1.321 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
588.854 0 118.0 19.37 1.321 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
588.794 0 118.0 19.37 1.320 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
588.738 0 118.0 19.37 1.320 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.684 0 118.0 19.37 1.319 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.635 0 118.1 19.37 1.319 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.588 0 118.1 19.37 1.319 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.543 0 118.1 19.37 1.318 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.501 0 118.1 19.37 1.318 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.462 0 118.1 19.37 1.317 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.424 0 118.1 19.37 1.317 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.390 0 118.1 19.37 1.317 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.357 0 118.1 19.37 1.316 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.326 0 118.1 19.37 1.316 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
588.297 0 118.2 19.37 1.316 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.269 0 118.2 19.37 1.316 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.242 0 118.2 19.37 1.315 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.218 0 118.2 19.37 1.315 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.195 0 118.2 19.37 1.315 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.172 0 118.2 19.37 1.315 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.151 0 118.2 19.37 1.314 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.131 0 118.2 19.37 1.314 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.113 0 118.2 19.37 1.314 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.095 0 118.2 19.37 1.314 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.078 0 118.2 19.37 1.314 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.063 0 118.2 19.37 1.313 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.048 0 118.3 19.37 1.313 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.033 0 118.3 19.37 1.313 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.020 0 118.3 19.37 1.313 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
588.007 0 118.3 19.37 1.313 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
587.994 0 118.3 19.37 1.313 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
587.983 0 118.3 19.37 1.312 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
587.972 0 118.3 19.37 1.312 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
587.961 0 118.3 19.37 1.312 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
587.951 0 118.3 19.37 1.312 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
587.942 0 118.3 19.37 1.312 9.500
0.000 116.6 19.37 9.500
587.920 0 118.3 19.37 1.312 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
587.912 0 118.3 19.37 1.312 9.500
0.000 116.7 19.37 9.500
587.894 0 118.3 19.37 1.312 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
587.887 0 118.3 19.37 1.311 9.500
0.000 116.7 19.37 9.500
587.871 0 118.3 19.37 1.311 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
587.865 0 118.3 19.37 1.311 9.500
0.000 116.7 19.37 9.500
587.850 0 118.3 19.37 1.311 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
587.846 0 118.3 19.37 1.311 9.500
0.000 116.7 19.37 9.500
587.833 0 118.4 19.37 1.311 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
587.828 0 118.4 19.37 1.311 9.500
0.000 116.7 19.37 9.500
587.817 0 118.4 19.37 1.311 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
587.814 0 118.4 19.37 1.311 9.500
0.000 116.7 19.37 9.500
587.804 0 118.4 19.37 1.310 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
587.801 0 118.4 19.37 1.310 9.500
0.000 116.7 19.37 9.500
587.792 0 118.4 19.37 1.310 9.500
0.000 116.7 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
5.04E-04 | -0.01 0.00 -1.00 -0.01 0.00
4.30E-01 | 0.69 0.02 0.00 -0.72 -0.03
4.98E-01 | -0.72 -0.04 0.01 -0.69 -0.04
1.17E+02 | -0.04 0.73 0.00 -0.05 0.68
5.77E+01 | 0.02 -0.68 0.00 -0.03 0.73
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.372 +/- 0.840599 1
2 2 1 gaussian Sigma keV 19.3655 +/- 9.44606 1
3 3 1 gaussian norm 1.31025 +/- 0.344030E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 116.712 +/- 0.867393 2
7 7 3 gaussian Sigma keV 19.3655 +/- 9.21926 2
8 3 3 gaussian norm 1.31025 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 587.7923 using 198 PHA bins.
Reduced chi-squared = 3.093644 for 190 degrees of freedom
Null hypothesis probability = 3.182E-42
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.984) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.984) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.086 photons ( 2.1623E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.056 photons ( 2.0861E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:26 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.551 +/- 3.5235E-02
Net count rate (cts/s) for file 2 3.551 +/- 3.5235E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 15838.69 using 168 PHA bins.
Reduced chi-squared = 98.99181 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1524.782 using 168 PHA bins.
Reduced chi-squared = 9.529890 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
830.829 -3 86.06 14.48 0.1761 1.084
0.9510 85.96 14.17 1.072
236.549 -4 72.14 17.01 0.2246 0.9441
0.8304 73.67 16.18 0.9532
181.105 -1 78.61 5.109 0.1466 0.9501
0.8325 78.45 8.181 0.9519
149.814 -2 77.25 7.131 0.1446 0.9552
0.8619 77.67 7.280 0.9567
144.645 -3 75.65 8.431 0.1618 0.9722
0.9120 77.77 7.879 0.9733
144.453 -4 75.61 8.110 0.1623 0.9752
0.9266 77.75 7.876 0.9768
144.445 -5 75.56 8.175 0.1629 0.9751
0.9264 77.74 7.894 0.9768
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.54E-05 | 0.00 0.00 -0.23 0.67 -0.33 0.00 0.00 0.62
1.83E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
1.43E-04 | 0.00 0.01 -0.97 -0.15 0.09 0.00 0.01 -0.16
2.56E-02 | 0.03 0.01 -0.01 -0.25 -0.94 0.03 0.01 -0.24
6.00E-01 | -0.08 -0.62 0.00 0.00 0.01 0.15 0.77 0.00
1.14E+00 | -0.43 0.67 0.01 0.00 -0.01 -0.25 0.54 0.00
9.12E-01 | -0.89 -0.29 0.00 -0.01 -0.03 0.03 -0.33 -0.01
8.15E-01 | -0.07 0.28 0.00 0.01 0.03 0.96 0.03 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.5607 +/- 0.975024 1
2 2 1 gaussian Sigma keV 8.17541 +/- 0.942102 1
3 3 1 gaussian norm 0.162873 +/- 0.155707E-01 1
4 4 2 powerlaw PhoIndex 0.975102 +/- 0.416156E-01 1
5 5 2 powerlaw norm 0.926352 +/- 0.155264 1
6 6 3 gaussian LineE keV 77.7435 +/- 0.910433 2
7 7 3 gaussian Sigma keV 7.89384 +/- 0.890844 2
8 3 3 gaussian norm 0.162873 = par 3 2
9 8 4 powerlaw PhoIndex 0.976796 +/- 0.398950E-01 2
10 5 4 powerlaw norm 0.926352 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 144.4454 using 168 PHA bins.
Reduced chi-squared = 0.9027837 for 160 degrees of freedom
Null hypothesis probability = 0.806
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 73.9839 77.1472 ( -1.57682 , 1.58648 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.2601 79.2029 ( -1.48341 , 1.45942 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.324 photons ( 1.5786E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.316 photons ( 1.5741E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
6.212316
=====best line=====
75.5648 0.978751
=====best sigma=====
8.16726 0.945903
=====norm=====
0.162806 0.156031E-01
=====phoindx=====
0.975086 0.416196E-01
=====pow_norm=====
0.926367 0.155364
=====best line=====
77.7432 0.910294
=====best sigma=====
7.89194 0.891149
=====norm=====
0.162806 par
=====phoindx=====
0.976788 0.398995E-01
=====pow_norm=====
0.926367 par
=====redu_chi=====
0.9027823
=====slow error=====
-1.58064 1.58155
=====fast error=====
-1.48284 1.46021
=====area_flux=====
1.324
=====area_flux_f=====
1.316
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
25.29752 23.5444
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 3 1 640 2000 1209.0368 25.29752 0.162806 0.156031E-01 8.16726 0.945903 0.975086 0.416196E-01 0.926367 0.155364 1.324 640 2000 1243.8912 23.5444 0.162806 0.156031E-01 7.89194 0.891149 0.976788 0.398995E-01 0.926367 0.155364 1.316 0.9027823 0
=====redu_chi=====
16.49286
=====best line=====
118.372 0.840599
=====best sigma=====
19.3655 9.44606
=====norm=====
1.31025 0.344030E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.712 0.867393
=====best sigma=====
19.3655 9.21926
=====norm=====
1.31025 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
3.093644
=====area_flux=====
1.086
=====area_flux_f=====
1.056
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
25.29752 23.5444
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 3 1 1600 3200 1893.952 25.29752 1.31025 0.344030E-01 309.848 151.13696 9.50000 -1.00000 0.00000 -1.00000 1.086 1600 3200 1867.392 23.5444 1.31025 0.344030E-01 309.848 147.50816 9.50000 -1.00000 0.00000 -1.00000 1.056 3.093644 1
=====redu_chi=====
9.529890
=====best line=====
75.5607 0.975024
=====best sigma=====
8.17541 0.942102
=====norm=====
0.162873 0.155707E-01
=====phoindx=====
0.975102 0.416156E-01
=====pow_norm=====
0.926352 0.155264
=====best line=====
77.7435 0.910433
=====best sigma=====
7.89384 0.890844
=====norm=====
0.162873 par
=====phoindx=====
0.976796 0.398950E-01
=====pow_norm=====
0.926352 par
=====redu_chi=====
0.9027837
=====slow error=====
-1.57682 1.58648
=====fast error=====
-1.48341 1.45942
=====area_flux=====
1.324
=====area_flux_f=====
1.316
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
25.3064 23.54264
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 3 1 640 2000 1208.9712 25.3064 0.162873 0.155707E-01 8.17541 0.942102 0.975102 0.416156E-01 0.926352 0.155264 1.324 640 2000 1243.896 23.54264 0.162873 0.155707E-01 7.89384 0.890844 0.976796 0.398950E-01 0.926352 0.155264 1.316 0.9027837 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:26 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.373 +/- 3.4344E-02
Net count rate (cts/s) for file 2 3.373 +/- 3.4344E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 8841.071 using 168 PHA bins.
Reduced chi-squared = 55.25669 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 536.0226 using 168 PHA bins.
Reduced chi-squared = 3.350141 for 160 degrees of freedom
Null hypothesis probability = 4.240E-42
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
225.374 -3 88.08 13.30 0.1885 0.7931
0.4740 88.70 13.47 0.7947
194.882 -4 84.80 9.700 0.1317 0.7325
0.3452 86.35 9.856 0.7365
194.348 -5 84.62 9.983 0.1619 0.7747
0.4087 86.95 16.30 0.7743
193.284 -6 84.78 9.692 0.1466 0.7631
0.4030 86.44 7.551 0.7654
182.803 -7 84.62 9.381 0.1487 0.7571
0.3921 86.83 10.07 0.7586
182.718 -8 84.56 10.27 0.1629 0.7743
0.4155 86.94 11.91 0.7752
182.332 -9 84.83 9.912 0.1562 0.7672
0.4071 86.79 10.79 0.7689
182.183 -10 84.71 9.870 0.1617 0.7735
0.4156 86.88 11.23 0.7748
182.177 -11 84.70 9.826 0.1609 0.7722
0.4141 86.85 11.15 0.7737
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.00E-05 | 0.00 0.00 -0.19 0.55 -0.62 0.00 0.00 0.52
1.72E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.93E-04 | 0.00 0.01 -0.98 -0.07 0.17 0.00 0.03 -0.08
8.48E-03 | 0.02 0.02 -0.06 -0.46 -0.76 0.02 0.11 -0.44
5.80E-02 | -0.01 -0.09 0.04 0.05 0.08 0.00 0.99 0.05
1.63E+00 | 0.98 0.10 0.00 0.01 0.01 -0.17 0.01 0.01
2.37E+00 | -0.16 -0.14 0.00 -0.01 -0.02 -0.98 -0.01 -0.01
1.97E+00 | -0.12 0.98 0.01 0.01 0.02 -0.12 0.08 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 84.7004 +/- 1.28581 1
2 2 1 gaussian Sigma keV 9.82582 +/- 1.40049 1
3 3 1 gaussian norm 0.160936 +/- 0.237476E-01 1
4 4 2 powerlaw PhoIndex 0.772164 +/- 0.506427E-01 1
5 5 2 powerlaw norm 0.414075 +/- 0.820571E-01 1
6 6 3 gaussian LineE keV 86.8472 +/- 1.53076 2
7 7 3 gaussian Sigma keV 11.1487 +/- 0.267252 2
8 3 3 gaussian norm 0.160936 = par 3 2
9 8 4 powerlaw PhoIndex 0.773692 +/- 0.487037E-01 2
10 5 4 powerlaw norm 0.414075 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 182.1765 using 168 PHA bins.
Reduced chi-squared = 1.138603 for 160 degrees of freedom
Null hypothesis probability = 0.111
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 82.6382 86.7573 ( -2.06225 , 2.05686 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 84.4079 89.2500 ( -2.43931 , 2.40275 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.394 photons ( 1.7169E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.386 photons ( 1.7123E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:26 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.057 +/- 5.3077E-02
Net count rate (cts/s) for file 2 8.057 +/- 5.3077E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.684 +/- 6.3219E-02( 58.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.684 +/- 6.3219E-02( 58.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 8951.498 using 198 PHA bins.
Reduced chi-squared = 47.11315 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3172.461 using 198 PHA bins.
Reduced chi-squared = 16.69716 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2683.78 -2 128.7 8.614 0.5318 1.181
1.113 129.8 8.958 1.282
2418.13 -3 126.7 18.86 0.7927 4.164
18.17 129.4 18.94 4.117
2417.91 4 126.7 18.86 0.7927 3.458
19.47 129.4 18.94 3.653
2416.34 3 126.7 18.86 0.7927 3.234
32.76 129.4 18.94 3.208
2389.67 2 126.7 18.86 0.7935 2.790
87.72 129.4 18.94 2.927
2263.49 1 126.8 18.87 0.8009 2.613
169.3 129.4 18.94 2.686
1333.99 0 127.3 19.07 0.8596 2.321
407.0 129.8 19.04 2.414
995.327 0 128.5 19.25 1.053 2.288
477.7 130.8 19.34 2.390
954.447 0 128.8 19.35 1.161 2.291
477.0 130.9 19.36 2.399
947.181 0 128.8 19.36 1.234 2.297
466.5 130.8 19.36 2.411
946.429 0 128.9 19.36 1.235 2.298
465.0 130.8 19.36 2.412
945.900 0 128.9 19.36 1.235 2.299
463.8 130.8 19.37 2.412
945.486 0 129.0 19.37 1.236 2.300
462.7 130.8 19.37 2.413
945.163 0 129.0 19.37 1.237 2.301
461.8 130.9 19.37 2.414
944.892 0 129.1 19.37 1.238 2.301
461.1 130.9 19.37 2.414
944.666 0 129.1 19.37 1.239 2.302
460.5 130.9 19.37 2.415
944.470 0 129.1 19.37 1.240 2.303
460.0 130.9 19.37 2.415
944.301 0 129.2 19.37 1.241 2.303
459.6 130.9 19.37 2.416
944.155 0 129.2 19.37 1.242 2.304
459.3 130.9 19.37 2.416
944.027 0 129.3 19.37 1.243 2.304
459.1 130.9 19.37 2.417
943.916 0 129.3 19.37 1.244 2.305
458.8 130.9 19.37 2.417
943.817 0 129.3 19.37 1.245 2.305
458.7 131.0 19.37 2.418
943.729 0 129.4 19.37 1.246 2.306
458.6 131.0 19.37 2.418
943.651 0 129.4 19.37 1.246 2.306
458.5 131.0 19.37 2.418
943.582 0 129.4 19.37 1.247 2.306
458.5 131.0 19.37 2.419
943.521 0 129.4 19.37 1.248 2.307
458.5 131.0 19.37 2.419
943.466 0 129.5 19.37 1.249 2.307
458.5 131.0 19.37 2.419
943.418 0 129.5 19.37 1.249 2.307
458.5 131.0 19.37 2.420
943.374 0 129.5 19.37 1.250 2.308
458.6 131.0 19.37 2.420
943.335 0 129.5 19.37 1.251 2.308
458.7 131.0 19.37 2.420
943.301 0 129.6 19.37 1.251 2.308
458.8 131.0 19.37 2.421
943.269 0 129.6 19.37 1.252 2.309
458.9 131.0 19.37 2.421
943.242 0 129.6 19.37 1.252 2.309
459.1 131.0 19.37 2.421
943.215 0 129.6 19.37 1.253 2.309
459.2 131.0 19.37 2.421
943.192 0 129.6 19.37 1.253 2.310
459.4 131.0 19.37 2.422
943.171 0 129.6 19.37 1.254 2.310
459.6 131.0 19.37 2.422
943.149 0 129.7 19.37 1.254 2.310
459.8 131.0 19.37 2.422
943.131 0 129.7 19.37 1.255 2.310
460.0 131.0 19.37 2.423
943.115 0 129.7 19.37 1.255 2.311
460.2 131.0 19.37 2.423
943.099 0 129.7 19.37 1.256 2.311
460.4 131.0 19.37 2.423
943.084 0 129.7 19.37 1.256 2.311
460.7 131.0 19.37 2.423
943.069 0 129.7 19.37 1.256 2.311
460.9 131.0 19.37 2.424
943.057 0 129.7 19.37 1.257 2.312
461.2 131.0 19.37 2.424
943.043 0 129.7 19.37 1.257 2.312
461.4 131.0 19.37 2.424
943.033 0 129.8 19.37 1.257 2.312
461.7 131.0 19.37 2.424
943.020 0 129.8 19.37 1.258 2.312
462.0 131.0 19.37 2.425
943.009 0 129.8 19.37 1.258 2.313
462.3 131.0 19.37 2.425
942.997 0 129.8 19.37 1.258 2.313
462.6 131.0 19.37 2.425
942.987 0 129.8 19.37 1.258 2.313
462.9 131.0 19.37 2.425
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.21E-04 | 0.00 0.00 -0.30 0.95 0.00 0.00 0.00 0.07
2.50E-04 | 0.00 0.00 0.34 0.18 0.00 0.00 0.00 -0.92
1.05E-03 | -0.01 0.00 -0.89 -0.25 0.00 0.00 0.00 -0.38
4.91E-01 | -0.98 -0.02 0.01 0.00 0.00 -0.20 -0.01 0.00
4.56E-01 | -0.21 0.00 0.00 0.00 0.00 0.98 0.02 0.00
8.53E+01 | 0.01 -0.73 0.00 0.00 0.00 -0.01 0.69 0.00
2.21E+02 | -0.02 0.69 0.00 0.00 0.02 -0.02 0.73 0.00
1.27E+06 | 0.00 -0.01 0.00 0.00 1.00 0.00 -0.01 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 129.791 +/- 1.33318 1
2 2 1 gaussian Sigma keV 19.3655 +/- 16.4130 1
3 3 1 gaussian norm 1.25836 +/- 0.103911 1
4 4 2 powerlaw PhoIndex 2.31310 +/- 0.490874 1
5 5 2 powerlaw norm 462.916 +/- 1126.07 1
6 6 3 gaussian LineE keV 131.044 +/- 1.12906 2
7 7 3 gaussian Sigma keV 19.3655 +/- 18.0975 2
8 3 3 gaussian norm 1.25836 = par 3 2
9 8 4 powerlaw PhoIndex 2.42528 +/- 0.451796 2
10 5 4 powerlaw norm 462.916 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 942.9874 using 198 PHA bins.
Reduced chi-squared = 4.963092 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.787) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.787) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.675 photons ( 3.5837E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.475 photons ( 3.1624E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:26 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.373 +/- 3.4344E-02
Net count rate (cts/s) for file 2 3.373 +/- 3.4344E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 10718.56 using 168 PHA bins.
Reduced chi-squared = 66.99097 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 938.7238 using 168 PHA bins.
Reduced chi-squared = 5.867024 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
255.144 -3 88.39 11.50 0.1826 0.7933
0.4897 89.19 11.28 0.7944
183.344 -4 84.96 10.96 0.1650 0.7775
0.4213 87.11 11.42 0.7802
182.409 -5 85.00 9.885 0.1548 0.7667
0.4068 86.84 10.84 0.7686
182.191 -6 84.69 9.942 0.1624 0.7742
0.4166 86.88 11.25 0.7754
182.179 -7 84.72 9.788 0.1605 0.7717
0.4135 86.85 11.13 0.7733
182.177 -8 84.68 9.872 0.1615 0.7728
0.4149 86.86 11.19 0.7742
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.94E-06 | 0.00 0.00 -0.19 0.55 -0.62 0.00 0.00 0.52
1.72E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.90E-04 | 0.00 0.01 -0.98 -0.07 0.17 0.00 0.03 -0.08
8.37E-03 | 0.02 0.02 -0.06 -0.46 -0.76 0.02 0.11 -0.44
5.66E-02 | -0.01 -0.09 0.04 0.05 0.08 0.00 0.99 0.05
1.62E+00 | 0.98 0.11 0.00 0.01 0.01 -0.17 0.01 0.01
2.34E+00 | -0.15 -0.13 0.00 -0.01 -0.02 -0.98 -0.01 -0.01
1.94E+00 | -0.13 0.98 0.01 0.01 0.02 -0.11 0.08 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 84.6764 +/- 1.27991 1
2 2 1 gaussian Sigma keV 9.87221 +/- 1.38792 1
3 3 1 gaussian norm 0.161536 +/- 0.234061E-01 1
4 4 2 powerlaw PhoIndex 0.772791 +/- 0.502187E-01 1
5 5 2 powerlaw norm 0.414862 +/- 0.810408E-01 1
6 6 3 gaussian LineE keV 86.8551 +/- 1.52162 2
7 7 3 gaussian Sigma keV 11.1870 +/- 0.263253 2
8 3 3 gaussian norm 0.161536 = par 3 2
9 8 4 powerlaw PhoIndex 0.774248 +/- 0.482974E-01 2
10 5 4 powerlaw norm 0.414862 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 182.1774 using 168 PHA bins.
Reduced chi-squared = 1.138608 for 160 degrees of freedom
Null hypothesis probability = 0.111
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 82.6471 86.7686 ( -2.02927 , 2.09222 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 84.4047 89.2475 ( -2.45043 , 2.39231 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.394 photons ( 1.7164E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.386 photons ( 1.7123E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
3.350141
=====best line=====
84.7004 1.28581
=====best sigma=====
9.82582 1.40049
=====norm=====
0.160936 0.237476E-01
=====phoindx=====
0.772164 0.506427E-01
=====pow_norm=====
0.414075 0.820571E-01
=====best line=====
86.8472 1.53076
=====best sigma=====
11.1487 0.267252
=====norm=====
0.160936 par
=====phoindx=====
0.773692 0.487037E-01
=====pow_norm=====
0.414075 par
=====redu_chi=====
1.138603
=====slow error=====
-2.06225 2.05686
=====fast error=====
-2.43931 2.40275
=====area_flux=====
1.394
=====area_flux_f=====
1.386
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
32.95288 38.73648
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 4 1 640 2000 1355.2064 32.95288 0.160936 0.237476E-01 9.82582 1.40049 0.772164 0.506427E-01 0.414075 0.820571E-01 1.394 640 2000 1389.5552 38.73648 0.160936 0.237476E-01 11.1487 0.267252 0.773692 0.487037E-01 0.414075 0.820571E-01 1.386 1.138603 0
=====redu_chi=====
16.69716
=====best line=====
129.791 1.33318
=====best sigma=====
19.3655 16.4130
=====norm=====
1.25836 0.103911
=====phoindx=====
2.31310 0.490874
=====pow_norm=====
462.916 1126.07
=====best line=====
131.044 1.12906
=====best sigma=====
19.3655 18.0975
=====norm=====
1.25836 par
=====phoindx=====
2.42528 0.451796
=====pow_norm=====
462.916 par
=====redu_chi=====
4.963092
=====area_flux=====
1.675
=====area_flux_f=====
1.475
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
32.95288 38.73648
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 4 1 1600 3200 2076.656 32.95288 1.25836 0.103911 309.848 262.608 2.31310 0.490874 462.916 1126.07 1.675 1600 3200 2096.704 38.73648 1.25836 0.103911 309.848 289.56 2.42528 0.451796 462.916 1126.07 1.475 4.963092 1
=====redu_chi=====
5.867024
=====best line=====
84.6764 1.27991
=====best sigma=====
9.87221 1.38792
=====norm=====
0.161536 0.234061E-01
=====phoindx=====
0.772791 0.502187E-01
=====pow_norm=====
0.414862 0.810408E-01
=====best line=====
86.8551 1.52162
=====best sigma=====
11.1870 0.263253
=====norm=====
0.161536 par
=====phoindx=====
0.774248 0.482974E-01
=====pow_norm=====
0.414862 par
=====redu_chi=====
1.138608
=====slow error=====
-2.02927 2.09222
=====fast error=====
-2.45043 2.39231
=====area_flux=====
1.394
=====area_flux_f=====
1.386
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
32.97192 38.74192
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 4 1 640 2000 1354.8224 32.97192 0.161536 0.234061E-01 9.87221 1.38792 0.772791 0.502187E-01 0.414862 0.810408E-01 1.394 640 2000 1389.6816 38.74192 0.161536 0.234061E-01 11.1870 0.263253 0.774248 0.482974E-01 0.414862 0.810408E-01 1.386 1.138608 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:27 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.355 +/- 3.4250E-02
Net count rate (cts/s) for file 2 3.355 +/- 3.4250E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13230.59 using 168 PHA bins.
Reduced chi-squared = 82.69119 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1041.026 using 168 PHA bins.
Reduced chi-squared = 6.506411 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
382.129 -3 82.15 16.22 0.2565 0.9927
0.7553 81.15 16.30 0.9829
341.451 -3 76.70 5.608 5.6202E-02 0.8245
0.5196 75.06 4.783 0.8297
320.793 -4 77.33 14.08 0.1781 0.9629
0.7656 76.71 16.58 0.9587
309.585 -2 80.33 6.992 7.2167E-02 0.9473
0.8648 79.45 5.321 0.9490
308.254 -2 73.98 15.30 0.1931 0.9716
0.8716 77.15 17.08 0.9713
210.185 0 77.48 9.595 0.2017 0.9737
0.8638 76.22 6.608 0.9737
190.669 -1 77.53 8.247 0.2050 0.9744
0.8686 76.77 8.390 0.9742
189.279 -2 77.36 8.497 0.2135 0.9842
0.8984 77.35 8.942 0.9841
188.955 -3 77.48 8.486 0.2138 1.009
0.9909 77.50 8.810 1.008
188.619 -4 77.50 8.530 0.2152 1.018
1.033 77.53 8.877 1.017
188.597 -5 77.51 8.530 0.2151 1.018
1.036 77.53 8.858 1.018
188.597 -6 77.51 8.533 0.2151 1.018
1.036 77.53 8.864 1.018
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.74E-05 | 0.00 0.00 -0.24 0.66 -0.30 0.00 0.00 0.64
2.03E-05 | 0.00 0.00 0.00 -0.70 0.00 0.00 0.00 0.72
1.62E-04 | 0.00 0.01 -0.97 -0.16 0.09 0.00 0.01 -0.16
3.37E-02 | 0.05 0.02 -0.01 -0.23 -0.95 0.05 0.02 -0.22
4.44E-01 | -0.12 -0.76 0.00 0.00 0.00 0.07 0.64 0.00
8.43E-01 | -0.24 0.57 0.01 0.00 -0.01 -0.39 0.68 0.00
5.99E-01 | -0.96 -0.01 0.00 -0.01 -0.04 0.18 -0.22 -0.01
6.76E-01 | 0.10 0.31 0.00 0.01 0.06 0.90 0.28 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.5085 +/- 0.780684 1
2 2 1 gaussian Sigma keV 8.53350 +/- 0.772776 1
3 3 1 gaussian norm 0.215149 +/- 0.167563E-01 1
4 4 2 powerlaw PhoIndex 1.01757 +/- 0.439775E-01 1
5 5 2 powerlaw norm 1.03588 +/- 0.182293 1
6 6 3 gaussian LineE keV 77.5318 +/- 0.833973 2
7 7 3 gaussian Sigma keV 8.86428 +/- 0.809621 2
8 3 3 gaussian norm 0.215149 = par 3 2
9 8 4 powerlaw PhoIndex 1.01766 +/- 0.421427E-01 2
10 5 4 powerlaw norm 1.03588 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 188.5973 using 168 PHA bins.
Reduced chi-squared = 1.178733 for 160 degrees of freedom
Null hypothesis probability = 6.069E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.2519 78.7660 ( -1.25658 , 1.25755 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.1875 78.8656 ( -1.34422 , 1.33386 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.299 photons ( 1.5510E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.299 photons ( 1.5506E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:27 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.931 +/- 5.2662E-02
Net count rate (cts/s) for file 2 7.931 +/- 5.2662E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.577 +/- 6.2819E-02( 57.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.577 +/- 6.2819E-02( 57.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 30003.33 using 198 PHA bins.
Reduced chi-squared = 157.9123 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3634.695 using 198 PHA bins.
Reduced chi-squared = 19.12997 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2375.18 -3 128.5 18.84 0.4612 3.386
2.113 129.1 18.89 3.307
1483.49 -4 105.4 19.34 1.543 9.388
0.7178 96.87 19.31 8.720
1307.39 -1 107.3 19.35 1.935 9.483
0.3582 101.5 19.36 9.242
1193.43 0 108.5 19.36 1.859 9.492
0.1061 103.5 19.36 9.442
1090.95 0 109.9 19.37 1.800 9.499
1.6206E-03 105.4 19.37 9.484
1001.55 0 111.2 19.37 1.750 9.500
5.9292E-04 107.2 19.37 9.493
926.957 0 112.4 19.37 1.708 9.500
2.4759E-04 108.8 19.37 9.497
867.367 0 113.5 19.37 1.673 9.500
3.9044E-05 110.2 19.37 9.500
821.161 0 114.4 19.37 1.644 9.500
8.7132E-06 111.4 19.37 9.500
785.973 0 115.3 19.37 1.618 9.500
3.3416E-07 112.4 19.37 9.500
739.996 0 116.5 19.37 1.578 9.500
9.2085E-09 113.9 19.37 9.500
714.495 0 117.4 19.37 1.548 9.500
1.7395E-09 114.8 19.37 9.500
706.431 0 117.8 19.37 1.537 9.500
7.9689E-10 115.1 19.37 9.500
700.346 0 118.0 19.37 1.527 9.500
3.1551E-10 115.3 19.37 9.500
695.834 0 118.3 19.37 1.520 9.500
7.1825E-11 115.5 19.37 9.500
692.456 0 118.4 19.37 1.514 9.500
1.0425E-11 115.6 19.37 9.500
689.951 0 118.6 19.37 1.510 9.500
2.6603E-12 115.8 19.37 9.500
687.992 0 118.7 19.37 1.506 9.500
7.0299E-13 115.9 19.37 9.500
Fit parameter 5 has pegged
684.076 0 118.8 19.37 1.494 9.500
0.000 115.8 19.37 9.500
Fit parameter 5 has pegged
682.937 0 118.8 19.37 1.489 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
682.331 0 118.9 19.37 1.486 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
681.982 0 118.9 19.37 1.485 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
681.744 0 118.9 19.37 1.484 9.500
0.000 115.6 19.37 9.500
Fit parameter 5 has pegged
681.564 0 118.9 19.37 1.484 9.500
0.000 115.6 19.37 9.500
Fit parameter 5 has pegged
681.439 0 118.9 19.37 1.484 9.500
0.000 115.6 19.37 9.500
Fit parameter 5 has pegged
681.324 0 118.9 19.37 1.483 9.500
0.000 115.6 19.37 9.500
Fit parameter 5 has pegged
681.210 0 119.0 19.37 1.483 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
681.140 0 119.0 19.37 1.483 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
681.067 0 119.0 19.37 1.483 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
681.033 0 119.0 19.37 1.483 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
680.999 0 119.0 19.37 1.483 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
680.986 0 119.0 19.37 1.483 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
680.957 0 119.0 19.37 1.482 9.500
0.000 115.7 19.37 9.500
Fit parameter 5 has pegged
680.948 0 119.0 19.37 1.482 9.500
0.000 115.7 19.37 9.500
678.258 0 119.1 19.37 1.474 9.500
0.000 115.8 19.37 9.500
Fit parameter 5 has pegged
677.100 0 119.2 19.37 1.471 9.500
0.000 115.8 19.37 9.500
Fit parameter 5 has pegged
676.044 0 119.2 19.37 1.467 9.500
0.000 115.9 19.37 9.500
Fit parameter 5 has pegged
675.080 0 119.3 19.37 1.464 9.500
0.000 115.9 19.37 9.500
Fit parameter 5 has pegged
674.200 0 119.3 19.37 1.461 9.500
0.000 115.9 19.37 9.500
Fit parameter 5 has pegged
673.395 0 119.4 19.37 1.458 9.500
0.000 116.0 19.37 9.500
Fit parameter 5 has pegged
672.654 0 119.5 19.37 1.455 9.500
0.000 116.0 19.37 9.500
Fit parameter 5 has pegged
671.977 0 119.5 19.37 1.453 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
671.356 0 119.6 19.37 1.450 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
670.784 0 119.6 19.37 1.448 9.500
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
670.259 0 119.7 19.37 1.446 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
669.778 0 119.7 19.37 1.444 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
669.334 0 119.7 19.37 1.442 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
668.925 0 119.8 19.37 1.440 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
668.548 0 119.8 19.37 1.439 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
668.202 0 119.9 19.37 1.437 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
667.883 0 119.9 19.37 1.435 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
667.588 0 119.9 19.37 1.434 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
667.316 0 120.0 19.37 1.433 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
667.065 0 120.0 19.37 1.431 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
666.833 0 120.0 19.37 1.430 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
666.620 0 120.1 19.37 1.429 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
666.423 0 120.1 19.37 1.428 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
666.239 0 120.1 19.37 1.427 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
666.069 0 120.2 19.37 1.426 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
665.914 0 120.2 19.37 1.425 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
665.770 0 120.2 19.37 1.424 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
665.636 0 120.2 19.37 1.423 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
665.512 0 120.3 19.37 1.423 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
665.396 0 120.3 19.37 1.422 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
665.290 0 120.3 19.37 1.421 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
665.191 0 120.3 19.37 1.420 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
665.099 0 120.3 19.37 1.420 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
665.014 0 120.4 19.37 1.419 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
664.935 0 120.4 19.37 1.419 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
664.861 0 120.4 19.37 1.418 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
664.792 0 120.4 19.37 1.417 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
664.729 0 120.4 19.37 1.417 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.668 0 120.4 19.37 1.416 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.614 0 120.5 19.37 1.416 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.563 0 120.5 19.37 1.415 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.515 0 120.5 19.37 1.415 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.470 0 120.5 19.37 1.415 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.428 0 120.5 19.37 1.414 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.389 0 120.5 19.37 1.414 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.352 0 120.5 19.37 1.414 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.318 0 120.5 19.37 1.413 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.286 0 120.5 19.37 1.413 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
664.256 0 120.6 19.37 1.413 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.228 0 120.6 19.37 1.412 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.201 0 120.6 19.37 1.412 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.177 0 120.6 19.37 1.412 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.154 0 120.6 19.37 1.412 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.132 0 120.6 19.37 1.411 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.112 0 120.6 19.37 1.411 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.093 0 120.6 19.37 1.411 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.075 0 120.6 19.37 1.411 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.058 0 120.6 19.37 1.410 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.042 0 120.6 19.37 1.410 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.028 0 120.6 19.37 1.410 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.013 0 120.6 19.37 1.410 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
664.001 0 120.6 19.37 1.410 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
663.988 0 120.6 19.37 1.410 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
663.976 0 120.7 19.37 1.409 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
663.965 0 120.7 19.37 1.409 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
663.954 0 120.7 19.37 1.409 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
663.945 0 120.7 19.37 1.409 9.500
0.000 116.9 19.37 9.500
663.921 0 120.7 19.37 1.409 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
663.913 0 120.7 19.37 1.409 9.500
0.000 116.9 19.37 9.500
663.893 0 120.7 19.37 1.409 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
663.886 0 120.7 19.37 1.408 9.500
0.000 117.0 19.37 9.500
663.870 0 120.7 19.37 1.408 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
663.864 0 120.7 19.37 1.408 9.500
0.000 117.0 19.37 9.500
663.850 0 120.7 19.37 1.408 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
663.845 0 120.7 19.37 1.408 9.500
0.000 117.0 19.37 9.500
663.833 0 120.7 19.37 1.408 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
663.830 0 120.7 19.37 1.408 9.500
0.000 117.0 19.37 9.500
663.819 0 120.7 19.37 1.408 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
663.815 0 120.7 19.37 1.408 9.500
0.000 117.0 19.37 9.500
663.807 0 120.7 19.37 1.407 9.500
0.000 117.0 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.91E-04 | -0.01 0.00 -1.00 -0.01 0.00
3.51E-01 | 0.67 0.02 0.00 -0.74 -0.03
3.99E-01 | -0.74 -0.04 0.01 -0.67 -0.04
9.14E+01 | -0.04 0.75 0.00 -0.04 0.65
4.90E+01 | 0.02 -0.66 0.00 -0.03 0.75
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 120.731 +/- 0.723642 1
2 2 1 gaussian Sigma keV 19.3655 +/- 8.54642 1
3 3 1 gaussian norm 1.40746 +/- 0.321668E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 116.997 +/- 0.774513 2
7 7 3 gaussian Sigma keV 19.3655 +/- 8.18598 2
8 3 3 gaussian norm 1.40746 = par 3 2
9 8 4 powerlaw PhoIndex 9.50001 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 663.8066 using 198 PHA bins.
Reduced chi-squared = 3.493719 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.370) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.370) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.207 photons ( 2.4333E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.140 photons ( 2.2552E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:27 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.355 +/- 3.4250E-02
Net count rate (cts/s) for file 2 3.355 +/- 3.4250E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 16049.93 using 168 PHA bins.
Reduced chi-squared = 100.3121 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1491.355 using 168 PHA bins.
Reduced chi-squared = 9.320967 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
720.782 -3 85.08 14.31 0.1980 1.066
0.8913 84.43 13.89 1.051
529.905 -4 73.00 10.12 0.1770 0.8060
0.3439 71.44 9.754 0.8161
262.695 -2 78.41 9.857 0.2131 0.8515
0.4803 77.90 14.63 0.8459
256.110 -3 77.47 7.376 0.1721 0.9540
0.7279 76.42 8.076 0.9488
202.835 -4 77.31 8.588 0.2135 1.017
0.9772 77.54 9.168 1.014
188.650 -5 77.53 8.474 0.2135 1.018
1.035 77.55 8.736 1.017
188.601 -6 77.50 8.546 0.2156 1.018
1.036 77.53 8.904 1.018
188.598 -7 77.51 8.528 0.2150 1.018
1.036 77.53 8.849 1.018
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.74E-05 | 0.00 0.00 -0.24 0.66 -0.30 0.00 0.00 0.64
2.03E-05 | 0.00 0.00 0.00 -0.70 0.00 0.00 0.00 0.72
1.62E-04 | 0.00 0.01 -0.97 -0.16 0.09 0.00 0.01 -0.16
3.38E-02 | 0.05 0.02 -0.01 -0.23 -0.95 0.05 0.02 -0.22
4.46E-01 | -0.13 -0.76 0.00 0.00 -0.01 0.07 0.63 0.00
5.99E-01 | 0.96 0.01 0.00 0.01 0.04 -0.17 0.22 0.01
8.50E-01 | -0.23 0.57 0.01 0.00 -0.01 -0.39 0.69 0.00
6.82E-01 | 0.09 0.31 0.00 0.01 0.06 0.90 0.29 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.5116 +/- 0.780911 1
2 2 1 gaussian Sigma keV 8.52806 +/- 0.773609 1
3 3 1 gaussian norm 0.214963 +/- 0.168138E-01 1
4 4 2 powerlaw PhoIndex 1.01750 +/- 0.440214E-01 1
5 5 2 powerlaw norm 1.03577 +/- 0.182524 1
6 6 3 gaussian LineE keV 77.5344 +/- 0.838178 2
7 7 3 gaussian Sigma keV 8.84852 +/- 0.814032 2
8 3 3 gaussian norm 0.214963 = par 3 2
9 8 4 powerlaw PhoIndex 1.01759 +/- 0.421860E-01 2
10 5 4 powerlaw norm 1.03577 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 188.5978 using 168 PHA bins.
Reduced chi-squared = 1.178736 for 160 degrees of freedom
Null hypothesis probability = 6.069E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.2519 78.7663 ( -1.25973 , 1.25467 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.1891 78.8663 ( -1.34534 , 1.33187 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.299 photons ( 1.5510E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.299 photons ( 1.5506E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
6.506411
=====best line=====
77.5085 0.780684
=====best sigma=====
8.53350 0.772776
=====norm=====
0.215149 0.167563E-01
=====phoindx=====
1.01757 0.439775E-01
=====pow_norm=====
1.03588 0.182293
=====best line=====
77.5318 0.833973
=====best sigma=====
8.86428 0.809621
=====norm=====
0.215149 par
=====phoindx=====
1.01766 0.421427E-01
=====pow_norm=====
1.03588 par
=====redu_chi=====
1.178733
=====slow error=====
-1.25658 1.25755
=====fast error=====
-1.34422 1.33386
=====area_flux=====
1.299
=====area_flux_f=====
1.299
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
20.11304 21.42464
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 5 1 640 2000 1240.136 20.11304 0.215149 0.167563E-01 8.53350 0.772776 1.01757 0.439775E-01 1.03588 0.182293 1.299 640 2000 1240.5088 21.42464 0.215149 0.167563E-01 8.86428 0.809621 1.01766 0.421427E-01 1.03588 0.182293 1.299 1.178733 0
=====redu_chi=====
19.12997
=====best line=====
120.731 0.723642
=====best sigma=====
19.3655 8.54642
=====norm=====
1.40746 0.321668E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.997 0.774513
=====best sigma=====
19.3655 8.18598
=====norm=====
1.40746 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
3.493719
=====area_flux=====
1.207
=====area_flux_f=====
1.140
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
20.11304 21.42464
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 5 1 1600 3200 1931.696 20.11304 1.40746 0.321668E-01 309.848 136.74272 9.50000 -1.00000 0.00000 -1.00000 1.207 1600 3200 1871.952 21.42464 1.40746 0.321668E-01 309.848 130.97568 9.50001 -1.00000 0.00000 -1.00000 1.140 3.493719 1
=====redu_chi=====
9.320967
=====best line=====
77.5116 0.780911
=====best sigma=====
8.52806 0.773609
=====norm=====
0.214963 0.168138E-01
=====phoindx=====
1.01750 0.440214E-01
=====pow_norm=====
1.03577 0.182524
=====best line=====
77.5344 0.838178
=====best sigma=====
8.84852 0.814032
=====norm=====
0.214963 par
=====phoindx=====
1.01759 0.421860E-01
=====pow_norm=====
1.03577 par
=====redu_chi=====
1.178736
=====slow error=====
-1.25973 1.25467
=====fast error=====
-1.34534 1.33187
=====area_flux=====
1.299
=====area_flux_f=====
1.299
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
20.1152 21.41768
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 5 1 640 2000 1240.1856 20.1152 0.214963 0.168138E-01 8.52806 0.773609 1.01750 0.440214E-01 1.03577 0.182524 1.299 640 2000 1240.5504 21.41768 0.214963 0.168138E-01 8.84852 0.814032 1.01759 0.421860E-01 1.03577 0.182524 1.299 1.178736 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:27 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.476 +/- 3.4860E-02
Net count rate (cts/s) for file 2 3.476 +/- 3.4860E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 9781.515 using 168 PHA bins.
Reduced chi-squared = 61.13447 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 669.4349 using 168 PHA bins.
Reduced chi-squared = 4.183969 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
247.448 -3 84.88 14.84 0.2098 0.7774
0.4300 85.04 13.96 0.7802
202.848 -3 78.15 8.521 9.7454E-02 0.7159
0.3287 80.11 8.629 0.7185
164.856 -1 80.19 9.654 0.1670 0.7217
0.3277 83.23 9.903 0.7234
158.967 -2 79.61 9.058 0.1746 0.7426
0.3535 81.73 8.371 0.7428
156.210 -2 79.70 9.638 0.1871 0.7612
0.3795 82.37 9.572 0.7619
154.980 -2 79.82 9.367 0.1829 0.7739
0.4027 82.22 9.019 0.7746
154.936 -3 80.01 9.665 0.1908 0.8153
0.4704 82.53 9.442 0.8150
153.197 -4 80.12 9.585 0.1902 0.8282
0.5045 82.52 9.267 0.8289
153.086 -5 80.11 9.640 0.1913 0.8292
0.5087 82.56 9.343 0.8305
153.085 -6 80.12 9.614 0.1908 0.8286
0.5079 82.54 9.305 0.8300
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.21E-05 | 0.00 0.00 -0.20 0.59 -0.54 0.00 0.00 0.56
1.81E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.78E-04 | 0.00 0.01 -0.98 -0.10 0.14 0.00 0.01 -0.11
1.02E-02 | 0.02 0.01 -0.03 -0.40 -0.83 0.02 0.02 -0.39
7.17E-01 | -0.10 -0.65 0.00 0.00 0.00 0.14 0.74 0.00
1.51E+00 | -0.21 0.73 0.01 0.01 0.01 -0.14 0.64 0.01
1.14E+00 | 0.93 0.14 0.00 0.01 0.03 0.26 0.20 0.01
1.00E+00 | 0.27 -0.17 0.00 -0.01 -0.01 -0.94 0.07 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 80.1192 +/- 1.07003 1
2 2 1 gaussian Sigma keV 9.61390 +/- 1.07510 1
3 3 1 gaussian norm 0.190800 +/- 0.192552E-01 1
4 4 2 powerlaw PhoIndex 0.828573 +/- 0.443818E-01 1
5 5 2 powerlaw norm 0.507883 +/- 0.897672E-01 1
6 6 3 gaussian LineE keV 82.5421 +/- 1.00762 2
7 7 3 gaussian Sigma keV 9.30450 +/- 1.02859 2
8 3 3 gaussian norm 0.190800 = par 3 2
9 8 4 powerlaw PhoIndex 0.829997 +/- 0.426459E-01 2
10 5 4 powerlaw norm 0.507883 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 153.0849 using 168 PHA bins.
Reduced chi-squared = 0.9567809 for 160 degrees of freedom
Null hypothesis probability = 0.639
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 78.4007 81.8200 ( -1.71847 , 1.70085 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 80.9130 84.1442 ( -1.62905 , 1.60212 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.380 photons ( 1.6809E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.372 photons ( 1.6794E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:28 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.050 +/- 5.3055E-02
Net count rate (cts/s) for file 2 8.050 +/- 5.3055E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.575 +/- 6.3482E-02( 56.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.575 +/- 6.3482E-02( 56.8% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 19050.66 using 198 PHA bins.
Reduced chi-squared = 100.2667 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3688.819 using 198 PHA bins.
Reduced chi-squared = 19.41484 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2858.71 -3 128.3 16.84 0.4636 3.626
3.423 128.1 16.90 3.541
1490.89 -4 110.7 19.26 1.944 9.145
4522. 109.4 19.20 7.829
1351.08 0 112.0 19.35 1.875 9.368
285.0 111.2 19.30 9.160
1250.46 0 113.2 19.36 1.829 9.463
94.75 112.9 19.35 9.375
1175.89 0 114.4 19.36 1.797 9.491
6.715 114.4 19.36 9.460
1120.96 0 115.4 19.36 1.773 9.499
1.865 115.6 19.36 9.497
1080.56 0 116.2 19.37 1.755 9.500
0.2552 116.6 19.37 9.499
1050.95 0 116.9 19.37 1.741 9.500
2.7275E-02 117.4 19.37 9.500
1029.08 0 117.5 19.37 1.730 9.500
1.1441E-02 118.0 19.37 9.500
1012.74 0 117.9 19.37 1.721 9.500
2.8912E-03 118.5 19.37 9.500
1000.34 0 118.3 19.37 1.714 9.500
1.1238E-03 118.9 19.37 9.500
990.912 0 118.6 19.37 1.708 9.500
5.2085E-05 119.2 19.37 9.500
983.648 0 118.9 19.37 1.703 9.500
1.4173E-05 119.5 19.37 9.500
978.029 0 119.1 19.37 1.699 9.500
4.2914E-06 119.7 19.37 9.500
973.492 0 119.3 19.37 1.696 9.500
1.7463E-06 119.8 19.37 9.500
964.692 0 119.7 19.37 1.688 9.500
9.1801E-08 120.1 19.37 9.500
962.802 0 119.8 19.37 1.687 9.500
2.9185E-08 120.2 19.37 9.500
961.361 0 119.8 19.37 1.685 9.500
1.3562E-08 120.2 19.37 9.500
960.234 0 119.9 19.37 1.684 9.500
5.6581E-09 120.2 19.37 9.500
959.221 0 119.9 19.37 1.684 9.500
1.6947E-09 120.3 19.37 9.500
958.565 0 120.0 19.37 1.683 9.500
6.9899E-10 120.3 19.37 9.500
957.930 0 120.0 19.37 1.682 9.500
1.9598E-10 120.3 19.37 9.500
957.525 0 120.0 19.37 1.682 9.500
7.1635E-11 120.3 19.37 9.500
957.048 0 120.0 19.37 1.682 9.500
8.3390E-12 120.3 19.37 9.500
956.817 0 120.1 19.37 1.682 9.500
5.2118E-13 120.4 19.37 9.500
Fit parameter 5 has pegged
955.563 0 120.1 19.37 1.679 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
955.019 0 120.1 19.37 1.678 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
954.736 0 120.1 19.37 1.677 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
954.506 0 120.1 19.37 1.677 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
954.326 0 120.1 19.37 1.677 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
954.297 0 120.1 19.37 1.677 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
948.055 0 120.2 19.37 1.666 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
942.523 0 120.3 19.37 1.656 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
937.594 0 120.4 19.37 1.647 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
933.186 0 120.5 19.37 1.639 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
929.230 0 120.5 19.37 1.631 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
925.666 0 120.6 19.37 1.624 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
922.447 0 120.7 19.37 1.618 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
919.521 0 120.8 19.37 1.612 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
916.862 0 120.9 19.37 1.606 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
914.434 0 121.0 19.37 1.601 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
912.212 0 121.0 19.37 1.596 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
910.176 0 121.1 19.37 1.591 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
908.305 0 121.2 19.37 1.587 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
906.583 0 121.3 19.37 1.583 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
904.997 0 121.4 19.37 1.579 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
903.529 0 121.4 19.37 1.576 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
902.174 0 121.5 19.37 1.573 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
900.919 0 121.6 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
899.756 0 121.6 19.37 1.567 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
898.675 0 121.7 19.37 1.564 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
897.671 0 121.8 19.37 1.562 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
896.740 0 121.8 19.37 1.560 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
895.873 0 121.9 19.37 1.557 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
895.064 0 122.0 19.37 1.555 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
894.311 0 122.0 19.37 1.553 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
893.609 0 122.1 19.37 1.552 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
892.952 0 122.1 19.37 1.550 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
892.340 0 122.2 19.37 1.548 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
891.767 0 122.3 19.37 1.547 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
891.233 0 122.3 19.37 1.545 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
890.732 0 122.4 19.37 1.544 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
890.263 0 122.4 19.37 1.542 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
889.823 0 122.5 19.37 1.541 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
889.412 0 122.5 19.37 1.540 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
889.027 0 122.5 19.37 1.539 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
888.666 0 122.6 19.37 1.538 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
888.327 0 122.6 19.37 1.537 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
888.009 0 122.7 19.37 1.536 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
887.711 0 122.7 19.37 1.535 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
887.430 0 122.7 19.37 1.534 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
887.167 0 122.8 19.37 1.533 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
886.919 0 122.8 19.37 1.532 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
886.686 0 122.8 19.37 1.531 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
886.464 0 122.9 19.37 1.531 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
886.259 0 122.9 19.37 1.530 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
886.065 0 122.9 19.37 1.529 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
885.879 0 123.0 19.37 1.529 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
885.706 0 123.0 19.37 1.528 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
885.543 0 123.0 19.37 1.527 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
885.389 0 123.0 19.37 1.527 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
885.242 0 123.1 19.37 1.526 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
885.105 0 123.1 19.37 1.526 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
884.976 0 123.1 19.37 1.525 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
884.852 0 123.1 19.37 1.525 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
884.736 0 123.2 19.37 1.524 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
884.626 0 123.2 19.37 1.524 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
884.522 0 123.2 19.37 1.524 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
884.424 0 123.2 19.37 1.523 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
884.330 0 123.3 19.37 1.523 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
884.241 0 123.3 19.37 1.522 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
884.157 0 123.3 19.37 1.522 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
884.078 0 123.3 19.37 1.522 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
884.002 0 123.3 19.37 1.521 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
883.931 0 123.3 19.37 1.521 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
883.863 0 123.4 19.37 1.521 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
883.799 0 123.4 19.37 1.520 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
883.737 0 123.4 19.37 1.520 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
883.679 0 123.4 19.37 1.520 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.624 0 123.4 19.37 1.520 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.571 0 123.4 19.37 1.519 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.522 0 123.4 19.37 1.519 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.474 0 123.4 19.37 1.519 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.430 0 123.5 19.37 1.519 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.388 0 123.5 19.37 1.518 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.346 0 123.5 19.37 1.518 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.306 0 123.5 19.37 1.518 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.268 0 123.5 19.37 1.518 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.233 0 123.5 19.37 1.518 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.199 0 123.5 19.37 1.518 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.167 0 123.5 19.37 1.517 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.136 0 123.5 19.37 1.517 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.107 0 123.5 19.37 1.517 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.079 0 123.6 19.37 1.517 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.052 0 123.6 19.37 1.517 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.026 0 123.6 19.37 1.517 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
883.001 0 123.6 19.37 1.516 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.978 0 123.6 19.37 1.516 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.955 0 123.6 19.37 1.516 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.934 0 123.6 19.37 1.516 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.914 0 123.6 19.37 1.516 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.893 0 123.6 19.37 1.516 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.875 0 123.6 19.37 1.516 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.857 0 123.6 19.37 1.516 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.839 0 123.6 19.37 1.516 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.824 0 123.6 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.808 0 123.6 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.792 0 123.6 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.778 0 123.6 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.764 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.751 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.739 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.726 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.715 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.704 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.694 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.683 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.673 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
882.653 0 123.7 19.37 1.515 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.645 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
882.627 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.619 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
882.604 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.596 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
882.582 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.577 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
882.564 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.558 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
882.548 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
882.542 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
882.533 0 123.7 19.37 1.514 9.500
0.000 123.0 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
5.15E-04 | -0.01 0.00 -1.00 -0.01 0.00
3.39E-01 | 0.43 0.00 0.00 -0.90 -0.02
3.71E-01 | -0.90 -0.03 0.01 -0.43 -0.02
1.01E+02 | -0.02 0.76 0.00 -0.02 0.65
5.52E+01 | 0.01 -0.65 0.00 -0.02 0.76
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 123.735 +/- 0.655024 1
2 2 1 gaussian Sigma keV 19.3655 +/- 9.04338 1
3 3 1 gaussian norm 1.51380 +/- 0.317608E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 123.031 +/- 0.652203 2
7 7 3 gaussian Sigma keV 19.3655 +/- 8.63063 2
8 3 3 gaussian norm 1.51380 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 882.5328 using 198 PHA bins.
Reduced chi-squared = 4.644910 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.480) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.480) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.347 photons ( 2.7584E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.336 photons ( 2.7263E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:28 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.476 +/- 3.4860E-02
Net count rate (cts/s) for file 2 3.476 +/- 3.4860E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 11770.71 using 168 PHA bins.
Reduced chi-squared = 73.56695 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1068.692 using 168 PHA bins.
Reduced chi-squared = 6.679326 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
302.497 -3 86.62 12.45 0.1787 0.7934
0.4895 86.75 10.73 0.7934
167.443 -4 77.81 11.02 0.1655 0.7693
0.3989 80.83 9.781 0.7717
161.674 -5 81.37 9.812 0.1846 0.8350
0.5040 82.86 9.299 0.8340
153.111 -6 80.06 9.722 0.1906 0.8282
0.5073 82.54 9.261 0.8296
153.086 -7 80.13 9.598 0.1909 0.8289
0.5085 82.56 9.326 0.8303
153.085 -8 80.12 9.627 0.1910 0.8287
0.5081 82.55 9.313 0.8301
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.21E-05 | 0.00 0.00 -0.20 0.59 -0.54 0.00 0.00 0.56
1.81E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.77E-04 | 0.00 0.01 -0.98 -0.10 0.14 0.00 0.01 -0.11
1.02E-02 | 0.02 0.01 -0.03 -0.40 -0.83 0.02 0.02 -0.39
7.14E-01 | -0.10 -0.65 0.00 0.00 0.00 0.14 0.74 0.00
1.50E+00 | -0.21 0.73 0.01 0.01 0.01 -0.14 0.64 0.01
1.14E+00 | 0.93 0.14 0.00 0.01 0.03 0.27 0.20 0.01
1.00E+00 | 0.29 -0.16 0.00 -0.01 -0.01 -0.94 0.07 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 80.1154 +/- 1.06560 1
2 2 1 gaussian Sigma keV 9.62678 +/- 1.07036 1
3 3 1 gaussian norm 0.190966 +/- 0.191876E-01 1
4 4 2 powerlaw PhoIndex 0.828716 +/- 0.443219E-01 1
5 5 2 powerlaw norm 0.508099 +/- 0.896121E-01 1
6 6 3 gaussian LineE keV 82.5453 +/- 1.00732 2
7 7 3 gaussian Sigma keV 9.31263 +/- 1.02742 2
8 3 3 gaussian norm 0.190966 = par 3 2
9 8 4 powerlaw PhoIndex 0.830128 +/- 0.425894E-01 2
10 5 4 powerlaw norm 0.508099 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 153.0847 using 168 PHA bins.
Reduced chi-squared = 0.9567794 for 160 degrees of freedom
Null hypothesis probability = 0.639
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 78.4004 81.8206 ( -1.71497 , 1.70517 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 80.9110 84.1421 ( -1.63429 , 1.59683 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.380 photons ( 1.6808E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.372 photons ( 1.6794E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
4.183969
=====best line=====
80.1192 1.07003
=====best sigma=====
9.61390 1.07510
=====norm=====
0.190800 0.192552E-01
=====phoindx=====
0.828573 0.443818E-01
=====pow_norm=====
0.507883 0.897672E-01
=====best line=====
82.5421 1.00762
=====best sigma=====
9.30450 1.02859
=====norm=====
0.190800 par
=====phoindx=====
0.829997 0.426459E-01
=====pow_norm=====
0.507883 par
=====redu_chi=====
0.9567809
=====slow error=====
-1.71847 1.70085
=====fast error=====
-1.62905 1.60212
=====area_flux=====
1.380
=====area_flux_f=====
1.372
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
27.35456 25.84936
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 6 1 640 2000 1281.9072 27.35456 0.190800 0.192552E-01 9.61390 1.07510 0.828573 0.443818E-01 0.507883 0.897672E-01 1.380 640 2000 1320.6736 25.84936 0.190800 0.192552E-01 9.30450 1.02859 0.829997 0.426459E-01 0.507883 0.897672E-01 1.372 0.9567809 0
=====redu_chi=====
19.41484
=====best line=====
123.735 0.655024
=====best sigma=====
19.3655 9.04338
=====norm=====
1.51380 0.317608E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
123.031 0.652203
=====best sigma=====
19.3655 8.63063
=====norm=====
1.51380 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
4.644910
=====area_flux=====
1.347
=====area_flux_f=====
1.336
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
27.35456 25.84936
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 6 1 1600 3200 1979.76 27.35456 1.51380 0.317608E-01 309.848 144.69408 9.50000 -1.00000 0.00000 -1.00000 1.347 1600 3200 1968.496 25.84936 1.51380 0.317608E-01 309.848 138.09008 9.50000 -1.00000 0.00000 -1.00000 1.336 4.644910 1
=====redu_chi=====
6.679326
=====best line=====
80.1154 1.06560
=====best sigma=====
9.62678 1.07036
=====norm=====
0.190966 0.191876E-01
=====phoindx=====
0.828716 0.443219E-01
=====pow_norm=====
0.508099 0.896121E-01
=====best line=====
82.5453 1.00732
=====best sigma=====
9.31263 1.02742
=====norm=====
0.190966 par
=====phoindx=====
0.830128 0.425894E-01
=====pow_norm=====
0.508099 par
=====redu_chi=====
0.9567794
=====slow error=====
-1.71497 1.70517
=====fast error=====
-1.63429 1.59683
=====area_flux=====
1.380
=====area_flux_f=====
1.372
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
27.36112 25.84896
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 6 1 640 2000 1281.8464 27.36112 0.190966 0.191876E-01 9.62678 1.07036 0.828716 0.443219E-01 0.508099 0.896121E-01 1.380 640 2000 1320.7248 25.84896 0.190966 0.191876E-01 9.31263 1.02742 0.830128 0.425894E-01 0.508099 0.896121E-01 1.372 0.9567794 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:28 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.853 +/- 3.6703E-02
Net count rate (cts/s) for file 2 3.853 +/- 3.6703E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 7796.565 using 168 PHA bins.
Reduced chi-squared = 48.72853 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1252.959 using 168 PHA bins.
Reduced chi-squared = 7.830995 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
485.632 -3 85.05 17.69 0.3704 0.7638
0.4240 83.46 17.45 0.7662
366.209 -2 70.62 19.25 0.6714 0.7652
0.3319 69.97 19.30 0.7717
364.706 -2 70.82 2.585 0.1185 0.6594
0.3245 73.53 7.215 0.6617
307.431 -3 70.80 3.967 0.1210 0.6026
0.2326 71.26 7.757 0.6070
238.110 -4 69.59 6.747 0.1682 0.5689
0.2024 70.52 9.326 0.5718
231.153 -3 65.92 13.21 0.2476 0.5285
0.1606 69.88 14.54 0.5328
212.485 -4 64.67 9.474 0.2539 0.4512
0.1107 68.98 9.128 0.4563
211.367 -5 64.37 11.12 0.2959 0.4311
0.1039 69.08 16.45 0.4343
192.458 0 64.47 10.61 0.3019 0.4315
0.1037 68.67 9.727 0.4349
189.783 0 64.49 10.34 0.2976 0.4315
0.1038 68.84 13.20 0.4343
185.614 -1 64.49 10.05 0.2948 0.4312
0.1039 68.97 10.78 0.4340
185.105 -2 64.46 10.07 0.2963 0.4318
0.1041 69.05 11.37 0.4346
185.093 -3 64.50 9.993 0.2934 0.4358
0.1060 69.08 11.25 0.4384
185.088 -4 64.50 9.991 0.2930 0.4377
0.1070 69.10 11.25 0.4403
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.49E-06 | 0.00 0.00 -0.06 0.22 -0.95 0.00 0.00 0.21
1.63E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
2.78E-04 | 0.00 0.04 -0.99 -0.08 0.02 0.00 0.06 -0.09
3.42E-03 | 0.02 -0.07 0.10 -0.68 -0.30 0.02 -0.12 -0.65
2.28E-02 | -0.01 0.37 -0.05 0.06 0.03 -0.02 -0.92 0.05
9.47E-02 | 0.11 0.92 0.07 -0.06 -0.03 0.09 0.35 -0.06
7.52E-01 | -0.88 0.05 0.01 -0.01 -0.01 0.47 0.02 -0.01
1.43E+00 | -0.46 0.11 0.01 -0.03 -0.01 -0.88 0.07 -0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 64.5005 +/- 0.941736 1
2 2 1 gaussian Sigma keV 9.99147 +/- 0.318417 1
3 3 1 gaussian norm 0.293000 +/- 0.338326E-01 1
4 4 2 powerlaw PhoIndex 0.437717 +/- 0.586376E-01 1
5 5 2 powerlaw norm 0.106995 +/- 0.273545E-01 1
6 6 3 gaussian LineE keV 69.1016 +/- 1.12690 2
7 7 3 gaussian Sigma keV 11.2516 +/- 0.193808 2
8 3 3 gaussian norm 0.293000 = par 3 2
9 8 4 powerlaw PhoIndex 0.440345 +/- 0.558695E-01 2
10 5 4 powerlaw norm 0.106995 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 185.0882 using 168 PHA bins.
Reduced chi-squared = 1.156801 for 160 degrees of freedom
Null hypothesis probability = 8.502E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 63.1427 65.8588 ( -1.35785 , 1.35832 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 67.5083 70.6774 ( -1.59337 , 1.57575 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.631 photons ( 1.9851E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.617 photons ( 1.9877E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:28 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 9.333 +/- 5.7125E-02
Net count rate (cts/s) for file 2 9.333 +/- 5.7125E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.480 +/- 6.7900E-02( 58.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.480 +/- 6.7900E-02( 58.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 31023.05 using 198 PHA bins.
Reduced chi-squared = 163.2792 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3726.590 using 198 PHA bins.
Reduced chi-squared = 19.61363 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2344.35 -3 127.6 19.09 0.5918 2.961
1.570 129.0 19.24 2.899
1148.02 -3 109.1 19.27 1.429 9.417
1.4034E+04 101.1 19.33 9.111
696.484 -1 110.8 19.32 2.026 9.468
6676. 108.4 19.36 9.441
640.797 0 111.8 19.35 1.959 9.490
2903. 109.5 19.36 9.494
602.184 0 112.7 19.36 1.908 9.497
423.6 110.4 19.37 9.500
575.845 0 113.5 19.36 1.867 9.499
91.32 111.2 19.37 9.500
558.433 0 114.2 19.37 1.834 9.500
5.285 111.9 19.37 9.500
547.460 0 114.7 19.37 1.808 9.500
2.523 112.4 19.37 9.500
540.818 0 115.2 19.37 1.786 9.500
1.116 112.8 19.37 9.500
537.058 0 115.5 19.37 1.769 9.500
0.4023 113.1 19.37 9.500
535.011 0 115.8 19.37 1.756 9.500
4.1733E-02 113.4 19.37 9.500
533.982 0 116.0 19.37 1.745 9.500
1.9009E-02 113.6 19.37 9.500
530.369 0 116.4 19.37 1.726 9.500
3.2939E-03 113.7 19.37 9.500
528.897 0 116.5 19.37 1.720 9.500
4.8118E-04 113.6 19.37 9.500
528.167 0 116.6 19.37 1.716 9.500
3.6516E-05 113.6 19.37 9.500
526.198 0 116.7 19.37 1.710 9.500
2.4421E-06 113.6 19.32 9.500
525.027 0 116.7 19.37 1.707 9.500
1.1876E-06 113.5 19.28 9.500
524.151 0 116.7 19.37 1.705 9.500
5.6915E-07 113.4 19.25 9.500
523.492 0 116.7 19.37 1.702 9.500
2.6348E-07 113.4 19.22 9.500
522.979 0 116.8 19.37 1.700 9.500
1.1215E-07 113.4 19.20 9.500
522.585 0 116.8 19.37 1.699 9.500
3.7098E-08 113.3 19.18 9.500
522.273 0 116.8 19.37 1.697 9.500
1.8462E-08 113.3 19.16 9.500
522.024 0 116.8 19.37 1.695 9.500
9.1957E-09 113.3 19.15 9.500
521.823 0 116.8 19.37 1.694 9.500
4.5843E-09 113.3 19.14 9.500
521.659 0 116.8 19.37 1.693 9.500
2.2875E-09 113.3 19.13 9.500
521.521 0 116.9 19.37 1.691 9.500
1.1429E-09 113.3 19.12 9.500
521.405 0 116.9 19.37 1.690 9.500
1.3741E-12 113.2 19.11 9.500
521.310 0 116.9 19.37 1.689 9.500
2.6183E-13 113.2 19.10 9.500
Fit parameter 5 has pegged
521.007 0 116.8 19.37 1.686 9.500
0.000 113.2 18.99 9.500
Fit parameter 5 has pegged
520.947 0 116.8 19.37 1.685 9.500
0.000 113.2 18.99 9.500
Fit parameter 5 has pegged
520.891 0 116.8 19.37 1.684 9.500
0.000 113.2 18.98 9.500
Fit parameter 5 has pegged
520.842 0 116.8 19.37 1.683 9.500
0.000 113.2 18.98 9.500
Fit parameter 5 has pegged
520.796 0 116.8 19.37 1.683 9.500
0.000 113.2 18.98 9.500
Fit parameter 5 has pegged
520.756 0 116.9 19.37 1.682 9.500
0.000 113.2 18.97 9.500
Fit parameter 5 has pegged
520.719 0 116.9 19.37 1.681 9.500
0.000 113.2 18.97 9.500
Fit parameter 5 has pegged
520.685 0 116.9 19.37 1.681 9.500
0.000 113.2 18.97 9.500
Fit parameter 5 has pegged
520.654 0 116.9 19.37 1.680 9.500
0.000 113.2 18.96 9.500
Fit parameter 5 has pegged
520.626 0 116.9 19.37 1.680 9.500
0.000 113.2 18.96 9.500
Fit parameter 5 has pegged
520.600 0 116.9 19.37 1.679 9.500
0.000 113.2 18.96 9.500
Fit parameter 5 has pegged
520.574 0 116.9 19.37 1.679 9.500
0.000 113.2 18.96 9.500
Fit parameter 5 has pegged
520.554 0 116.9 19.37 1.678 9.500
0.000 113.2 18.96 9.500
Fit parameter 5 has pegged
520.533 0 116.9 19.37 1.678 9.500
0.000 113.2 18.95 9.500
Fit parameter 5 has pegged
520.514 0 117.0 19.37 1.677 9.500
0.000 113.2 18.95 9.500
Fit parameter 5 has pegged
520.496 0 117.0 19.37 1.677 9.500
0.000 113.2 18.95 9.500
Fit parameter 5 has pegged
520.479 0 117.0 19.37 1.676 9.500
0.000 113.2 18.95 9.500
Fit parameter 5 has pegged
520.463 0 117.0 19.37 1.676 9.500
0.000 113.2 18.94 9.500
Fit parameter 5 has pegged
520.450 0 117.0 19.37 1.676 9.500
0.000 113.2 18.94 9.500
Fit parameter 5 has pegged
520.434 0 117.0 19.37 1.675 9.500
0.000 113.2 18.94 9.500
Fit parameter 5 has pegged
520.423 0 117.0 19.37 1.675 9.500
0.000 113.3 18.94 9.500
Fit parameter 5 has pegged
520.410 0 117.0 19.37 1.675 9.500
0.000 113.3 18.94 9.500
Fit parameter 5 has pegged
520.398 0 117.0 19.37 1.674 9.500
0.000 113.3 18.93 9.500
Fit parameter 5 has pegged
520.387 0 117.0 19.37 1.674 9.500
0.000 113.3 18.93 9.500
Fit parameter 5 has pegged
520.378 0 117.0 19.37 1.674 9.500
0.000 113.3 18.93 9.500
520.361 0 117.0 19.37 1.673 9.500
0.000 113.3 18.94 9.500
Fit parameter 5 has pegged
520.351 0 117.0 19.37 1.673 9.500
0.000 113.3 18.93 9.500
Fit parameter 5 has pegged
520.343 0 117.0 19.37 1.673 9.500
0.000 113.3 18.93 9.500
520.334 0 117.0 19.37 1.672 9.500
0.000 113.3 18.92 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
6.91E-04 | -0.01 0.00 -1.00 -0.02 0.00
2.83E-01 | 0.76 0.04 0.00 -0.63 -0.11
3.39E-01 | -0.64 -0.05 0.02 -0.74 -0.19
6.30E+01 | -0.07 0.99 0.00 -0.04 0.12
6.47E+00 | -0.03 -0.13 0.01 -0.21 0.97
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 117.048 +/- 0.790682 1
2 2 1 gaussian Sigma keV 19.3655 +/- 7.86164 1
3 3 1 gaussian norm 1.67248 +/- 0.403794E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.302 +/- 0.835348 2
7 7 3 gaussian Sigma keV 18.9245 +/- 2.63953 2
8 3 3 gaussian norm 1.67248 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 520.3337 using 198 PHA bins.
Reduced chi-squared = 2.738599 for 190 degrees of freedom
Null hypothesis probability = 1.591E-32
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.641) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.641) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.356 photons ( 2.6828E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.269 photons ( 2.4620E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:29 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.853 +/- 3.6703E-02
Net count rate (cts/s) for file 2 3.853 +/- 3.6703E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 10835.28 using 168 PHA bins.
Reduced chi-squared = 67.72051 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 2002.178 using 168 PHA bins.
Reduced chi-squared = 12.51361 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
703.607 -2 88.23 14.89 0.1821 0.7621
0.5278 86.74 14.70 0.7591
343.518 -3 68.83 19.32 0.4401 0.7510
0.3670 64.58 19.05 0.7545
334.420 0 68.90 19.21 0.4393 0.7509
0.3671 65.50 19.09 0.7539
296.445 0 69.29 14.20 0.4269 0.7495
0.3670 70.10 16.15 0.7519
251.412 -1 68.44 11.98 0.2893 0.7307
0.3740 72.99 9.583 0.7331
221.971 -2 66.84 9.910 0.2455 0.6721
0.2968 71.60 11.86 0.6759
204.346 -2 66.01 8.776 0.2339 0.6303
0.2531 71.17 9.839 0.6335
203.595 -1 65.72 9.063 0.2445 0.6266
0.2491 70.86 10.82 0.6290
197.268 -2 65.55 9.086 0.2481 0.5957
0.2167 70.67 9.991 0.5990
193.560 -2 65.35 9.298 0.2573 0.5697
0.1931 70.35 10.84 0.5730
190.692 -2 65.26 9.269 0.2581 0.5491
0.1770 70.23 10.28 0.5522
188.993 -2 65.12 9.439 0.2652 0.5321
0.1638 70.02 10.63 0.5352
187.848 -2 65.05 9.460 0.2674 0.5182
0.1541 69.91 10.61 0.5211
187.072 -2 64.96 9.541 0.2710 0.5065
0.1463 69.79 10.72 0.5095
186.528 -2 64.90 9.588 0.2735 0.4968
0.1401 69.70 10.77 0.4997
186.273 -3 64.61 9.909 0.2866 0.4586
0.1166 69.33 11.14 0.4629
185.165 -4 64.49 10.12 0.2935 0.4367
0.1065 69.10 11.27 0.4403
185.089 -5 64.52 9.986 0.2924 0.4386
0.1075 69.11 11.23 0.4412
185.088 -6 64.50 9.990 0.2932 0.4374
0.1069 69.10 11.26 0.4402
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.53E-06 | 0.00 0.00 -0.06 0.22 -0.95 0.00 0.00 0.21
1.63E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
2.78E-04 | 0.00 0.04 -0.99 -0.08 0.02 0.00 0.06 -0.09
3.42E-03 | 0.02 -0.06 0.10 -0.68 -0.31 0.02 -0.12 -0.65
2.33E-02 | -0.02 0.32 -0.06 0.06 0.03 -0.02 -0.94 0.05
1.13E-01 | 0.12 0.94 0.06 -0.05 -0.03 0.10 0.30 -0.05
7.56E-01 | -0.88 0.05 0.01 -0.01 -0.01 0.47 0.02 -0.01
1.43E+00 | -0.46 0.12 0.01 -0.03 -0.01 -0.88 0.07 -0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 64.4979 +/- 0.942982 1
2 2 1 gaussian Sigma keV 9.98969 +/- 0.353373 1
3 3 1 gaussian norm 0.293175 +/- 0.336165E-01 1
4 4 2 powerlaw PhoIndex 0.437435 +/- 0.582459E-01 1
5 5 2 powerlaw norm 0.106919 +/- 0.275225E-01 1
6 6 3 gaussian LineE keV 69.1003 +/- 1.12608 2
7 7 3 gaussian Sigma keV 11.2574 +/- 0.193289 2
8 3 3 gaussian norm 0.293175 = par 3 2
9 8 4 powerlaw PhoIndex 0.440201 +/- 0.554980E-01 2
10 5 4 powerlaw norm 0.106919 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 185.0878 using 168 PHA bins.
Reduced chi-squared = 1.156799 for 160 degrees of freedom
Null hypothesis probability = 8.503E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 63.1408 65.8554 ( -1.35711 , 1.35746 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 67.5062 70.6753 ( -1.59406 , 1.57500 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.632 photons ( 1.9862E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.617 photons ( 1.9878E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
7.830995
=====best line=====
64.5005 0.941736
=====best sigma=====
9.99147 0.318417
=====norm=====
0.293000 0.338326E-01
=====phoindx=====
0.437717 0.586376E-01
=====pow_norm=====
0.106995 0.273545E-01
=====best line=====
69.1016 1.12690
=====best sigma=====
11.2516 0.193808
=====norm=====
0.293000 par
=====phoindx=====
0.440345 0.558695E-01
=====pow_norm=====
0.106995 par
=====redu_chi=====
1.156801
=====slow error=====
-1.35785 1.35832
=====fast error=====
-1.59337 1.57575
=====area_flux=====
1.631
=====area_flux_f=====
1.617
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
21.72936 25.35296
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 7 1 640 2000 1032.008 21.72936 0.293000 0.338326E-01 9.99147 0.318417 0.437717 0.586376E-01 0.106995 0.273545E-01 1.631 640 2000 1105.6256 25.35296 0.293000 0.338326E-01 11.2516 0.193808 0.440345 0.558695E-01 0.106995 0.273545E-01 1.617 1.156801 0
=====redu_chi=====
19.61363
=====best line=====
117.048 0.790682
=====best sigma=====
19.3655 7.86164
=====norm=====
1.67248 0.403794E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.302 0.835348
=====best sigma=====
18.9245 2.63953
=====norm=====
1.67248 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
2.738599
=====area_flux=====
1.356
=====area_flux_f=====
1.269
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
21.72936 25.35296
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 7 1 1600 3200 1872.768 21.72936 1.67248 0.403794E-01 309.848 125.78624 9.50000 -1.00000 0.00000 -1.00000 1.356 1600 3200 1812.832 25.35296 1.67248 0.403794E-01 302.792 42.23248 9.50000 -1.00000 0.00000 -1.00000 1.269 2.738599 0
=====redu_chi=====
12.51361
=====best line=====
64.4979 0.942982
=====best sigma=====
9.98969 0.353373
=====norm=====
0.293175 0.336165E-01
=====phoindx=====
0.437435 0.582459E-01
=====pow_norm=====
0.106919 0.275225E-01
=====best line=====
69.1003 1.12608
=====best sigma=====
11.2574 0.193289
=====norm=====
0.293175 par
=====phoindx=====
0.440201 0.554980E-01
=====pow_norm=====
0.106919 par
=====redu_chi=====
1.156799
=====slow error=====
-1.35711 1.35746
=====fast error=====
-1.59406 1.57500
=====area_flux=====
1.632
=====area_flux_f=====
1.617
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
21.71656 25.35248
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 7 1 640 2000 1031.9664 21.71656 0.293175 0.336165E-01 9.98969 0.353373 0.437435 0.582459E-01 0.106919 0.275225E-01 1.632 640 2000 1105.6048 25.35248 0.293175 0.336165E-01 11.2574 0.193289 0.440201 0.554980E-01 0.106919 0.275225E-01 1.617 1.156799 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:29 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.576 +/- 3.5358E-02
Net count rate (cts/s) for file 2 3.576 +/- 3.5358E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 9374.859 using 168 PHA bins.
Reduced chi-squared = 58.59287 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 981.7240 using 168 PHA bins.
Reduced chi-squared = 6.135775 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
356.775 -3 82.93 17.21 0.3674 1.015
0.8691 82.63 16.99 1.009
260.660 -3 74.07 18.49 0.3817 0.8547
0.4599 74.13 17.85 0.8614
258.644 -4 77.75 5.859 7.2766E-02 0.8585
0.6468 77.92 4.762 0.8516
204.152 -5 74.59 16.87 0.1752 0.8541
0.6156 77.21 9.998 0.8551
163.108 0 75.62 6.938 0.1951 0.8561
0.6111 76.36 9.875 0.8563
145.052 -1 74.83 9.470 0.2234 0.8571
0.6041 75.67 10.90 0.8590
142.797 -1 74.57 10.33 0.2404 0.8582
0.5986 75.63 10.47 0.8599
142.407 -2 74.60 10.23 0.2477 0.8545
0.5856 75.53 10.72 0.8562
142.257 -3 74.50 10.25 0.2479 0.8422
0.5557 75.45 10.72 0.8443
142.240 -4 74.48 10.23 0.2477 0.8383
0.5464 75.42 10.71 0.8400
142.239 -5 74.47 10.23 0.2476 0.8383
0.5462 75.42 10.71 0.8399
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.26E-05 | 0.00 0.00 -0.19 0.61 -0.52 0.00 0.00 0.57
1.80E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
2.35E-04 | 0.00 0.06 -0.98 -0.11 0.11 0.00 0.06 -0.11
1.02E-02 | 0.03 0.00 -0.01 -0.38 -0.85 0.03 0.00 -0.36
1.84E-02 | 0.00 -0.64 0.01 0.00 0.00 0.01 0.77 0.00
4.00E-02 | 0.03 0.77 0.08 0.01 -0.01 0.03 0.63 0.01
8.99E-01 | -0.88 0.01 0.00 0.00 -0.01 0.48 0.00 0.00
1.16E+00 | 0.48 -0.03 0.00 0.01 0.03 0.88 -0.03 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 74.4747 +/- 0.978121 1
2 2 1 gaussian Sigma keV 10.2283 +/- 0.178745 1
3 3 1 gaussian norm 0.247647 +/- 0.225065E-01 1
4 4 2 powerlaw PhoIndex 0.838290 +/- 0.420343E-01 1
5 5 2 powerlaw norm 0.546171 +/- 0.940734E-01 1
6 6 3 gaussian LineE keV 75.4172 +/- 1.04668 2
7 7 3 gaussian Sigma keV 10.7104 +/- 0.166955 2
8 3 3 gaussian norm 0.247647 = par 3 2
9 8 4 powerlaw PhoIndex 0.839869 +/- 0.402550E-01 2
10 5 4 powerlaw norm 0.546171 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 142.2390 using 168 PHA bins.
Reduced chi-squared = 0.8889936 for 160 degrees of freedom
Null hypothesis probability = 0.840
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 72.9469 75.9975 ( -1.52779 , 1.52282 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 73.7850 77.0320 ( -1.63219 , 1.61473 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.474 photons ( 1.7754E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.466 photons ( 1.7689E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:29 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.459 +/- 5.4384E-02
Net count rate (cts/s) for file 2 8.459 +/- 5.4384E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.883 +/- 6.4867E-02( 57.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.883 +/- 6.4867E-02( 57.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 27486.33 using 198 PHA bins.
Reduced chi-squared = 144.6649 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3545.941 using 198 PHA bins.
Reduced chi-squared = 18.66285 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2427.72 -3 130.1 18.28 0.4470 3.405
2.207 129.1 18.44 3.325
1387.69 -4 106.2 19.26 1.591 8.789
0.9518 99.31 19.24 7.349
1160.07 0 108.8 19.36 1.683 9.420
4.3686E-02 103.6 19.36 8.798
1060.21 0 110.5 19.37 1.716 9.472
1.9562E-02 106.5 19.36 9.355
1001.29 0 111.7 19.37 1.722 9.492
9.5459E-03 108.6 19.37 9.437
958.500 0 112.7 19.37 1.713 9.498
4.7566E-03 110.1 19.37 9.481
924.584 0 113.5 19.37 1.700 9.499
2.9090E-04 111.4 19.37 9.499
896.965 0 114.2 19.37 1.684 9.500
5.1379E-05 112.4 19.37 9.500
874.239 0 114.8 19.37 1.668 9.500
1.7608E-05 113.2 19.37 9.500
855.733 0 115.3 19.37 1.654 9.500
8.5469E-06 113.9 19.37 9.500
840.677 0 115.8 19.37 1.641 9.500
3.7397E-06 114.4 19.37 9.500
828.329 0 116.2 19.37 1.629 9.500
1.2259E-06 114.9 19.37 9.500
818.232 0 116.6 19.37 1.618 9.500
5.7270E-07 115.3 19.37 9.500
797.238 0 117.4 19.37 1.592 9.500
1.1586E-08 116.0 19.37 9.500
792.662 0 117.6 19.37 1.585 9.500
3.5071E-09 116.1 19.37 9.500
788.948 0 117.8 19.37 1.580 9.500
1.4617E-09 116.2 19.37 9.500
785.952 0 118.0 19.37 1.576 9.500
4.3326E-10 116.3 19.37 9.500
783.561 0 118.1 19.37 1.572 9.500
1.7382E-10 116.4 19.37 9.500
781.601 0 118.2 19.37 1.569 9.500
4.3594E-11 116.5 19.37 9.500
780.003 0 118.3 19.37 1.567 9.500
1.0792E-11 116.6 19.37 9.500
778.691 0 118.4 19.37 1.565 9.500
2.5818E-12 116.6 19.37 9.500
777.466 0 118.4 19.37 1.563 9.500
5.1479E-13 116.7 19.37 9.500
Fit parameter 5 has pegged
774.399 0 118.5 19.37 1.554 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
773.497 0 118.5 19.37 1.550 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
773.084 0 118.5 19.37 1.549 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
772.974 0 118.5 19.37 1.548 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
772.867 0 118.6 19.37 1.548 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
772.849 0 118.6 19.37 1.548 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
770.131 0 118.6 19.37 1.541 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
767.663 0 118.7 19.37 1.535 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
765.416 0 118.8 19.37 1.529 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
763.361 0 118.9 19.37 1.524 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
761.480 0 119.0 19.37 1.519 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
759.752 0 119.1 19.37 1.514 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
758.162 0 119.1 19.37 1.510 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
756.697 0 119.2 19.37 1.506 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
755.343 0 119.3 19.37 1.502 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
754.090 0 119.4 19.37 1.499 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
752.930 0 119.4 19.37 1.495 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
751.855 0 119.5 19.37 1.492 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
750.858 0 119.6 19.37 1.489 9.500
0.000 117.1 19.37 9.500
Fit parameter 5 has pegged
749.933 0 119.7 19.37 1.486 9.500
0.000 117.1 19.37 9.500
Fit parameter 5 has pegged
749.074 0 119.7 19.37 1.484 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
748.274 0 119.8 19.37 1.481 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
747.531 0 119.9 19.37 1.479 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
746.840 0 119.9 19.37 1.477 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
746.195 0 120.0 19.37 1.475 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
745.595 0 120.0 19.37 1.473 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
745.036 0 120.1 19.37 1.471 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
744.514 0 120.2 19.37 1.469 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
744.026 0 120.2 19.37 1.467 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
743.574 0 120.3 19.37 1.465 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
743.151 0 120.3 19.37 1.464 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
742.756 0 120.4 19.37 1.462 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
742.388 0 120.4 19.37 1.461 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
742.045 0 120.4 19.37 1.460 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
741.723 0 120.5 19.37 1.458 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
741.423 0 120.5 19.37 1.457 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
741.143 0 120.6 19.37 1.456 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
740.882 0 120.6 19.37 1.455 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
740.636 0 120.7 19.37 1.454 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
740.406 0 120.7 19.37 1.453 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
740.193 0 120.7 19.37 1.452 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
739.992 0 120.8 19.37 1.451 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
739.803 0 120.8 19.37 1.450 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
739.628 0 120.8 19.37 1.449 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
739.462 0 120.9 19.37 1.448 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
739.307 0 120.9 19.37 1.448 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
739.160 0 120.9 19.37 1.447 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
739.025 0 120.9 19.37 1.446 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
738.898 0 121.0 19.37 1.446 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
738.778 0 121.0 19.37 1.445 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
738.666 0 121.0 19.37 1.444 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
738.560 0 121.0 19.37 1.444 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
738.461 0 121.1 19.37 1.443 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
738.367 0 121.1 19.37 1.443 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
738.280 0 121.1 19.37 1.442 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
738.197 0 121.1 19.37 1.442 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
738.118 0 121.1 19.37 1.441 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
738.045 0 121.2 19.37 1.441 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
737.977 0 121.2 19.37 1.440 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
737.911 0 121.2 19.37 1.440 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
737.850 0 121.2 19.37 1.439 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
737.793 0 121.2 19.37 1.439 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
737.739 0 121.2 19.37 1.439 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.687 0 121.3 19.37 1.438 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.638 0 121.3 19.37 1.438 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.593 0 121.3 19.37 1.437 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.550 0 121.3 19.37 1.437 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.509 0 121.3 19.37 1.437 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.470 0 121.3 19.37 1.437 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.435 0 121.3 19.37 1.436 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.400 0 121.3 19.37 1.436 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.367 0 121.4 19.37 1.436 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.336 0 121.4 19.37 1.436 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.306 0 121.4 19.37 1.435 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.279 0 121.4 19.37 1.435 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.253 0 121.4 19.37 1.435 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.228 0 121.4 19.37 1.435 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.205 0 121.4 19.37 1.434 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.181 0 121.4 19.37 1.434 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
737.161 0 121.4 19.37 1.434 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
737.141 0 121.4 19.37 1.434 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
737.121 0 121.4 19.37 1.434 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
737.104 0 121.4 19.37 1.434 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
737.086 0 121.4 19.37 1.433 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
737.070 0 121.5 19.37 1.433 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
737.054 0 121.5 19.37 1.433 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
737.040 0 121.5 19.37 1.433 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
737.025 0 121.5 19.37 1.433 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
737.012 0 121.5 19.37 1.433 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.999 0 121.5 19.37 1.433 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.987 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.975 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.964 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.953 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.943 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
736.920 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.911 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
736.890 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.882 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
736.864 0 121.5 19.37 1.432 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.857 0 121.5 19.37 1.431 9.500
0.000 118.3 19.37 9.500
736.841 0 121.5 19.37 1.431 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.835 0 121.6 19.37 1.431 9.500
0.000 118.3 19.37 9.500
736.822 0 121.6 19.37 1.431 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
736.817 0 121.6 19.37 1.431 9.500
0.000 118.3 19.37 9.500
736.804 0 121.6 19.37 1.431 9.500
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
736.800 0 121.6 19.37 1.431 9.500
0.000 118.3 19.37 9.500
736.788 0 121.6 19.37 1.431 9.500
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
736.785 0 121.6 19.37 1.431 9.500
0.000 118.4 19.37 9.500
736.775 0 121.6 19.37 1.431 9.500
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
736.772 0 121.6 19.37 1.431 9.500
0.000 118.4 19.37 9.500
736.763 0 121.6 19.37 1.431 9.500
0.000 118.4 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
5.29E-04 | -0.01 0.00 -1.00 -0.01 0.00
3.82E-01 | 0.69 0.02 0.00 -0.73 -0.03
4.27E-01 | -0.73 -0.04 0.01 -0.68 -0.04
9.05E+01 | -0.04 0.75 0.00 -0.04 0.66
4.95E+01 | 0.02 -0.66 0.00 -0.03 0.75
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 121.584 +/- 0.744413 1
2 2 1 gaussian Sigma keV 19.3655 +/- 8.49976 1
3 3 1 gaussian norm 1.43055 +/- 0.327908E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 118.363 +/- 0.785267 2
7 7 3 gaussian Sigma keV 19.3655 +/- 8.20987 2
8 3 3 gaussian norm 1.43055 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 736.7635 using 198 PHA bins.
Reduced chi-squared = 3.877702 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.740) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.740) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.241 photons ( 2.5123E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.185 photons ( 2.3604E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:30 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.576 +/- 3.5358E-02
Net count rate (cts/s) for file 2 3.576 +/- 3.5358E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12117.93 using 168 PHA bins.
Reduced chi-squared = 75.73705 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1561.092 using 168 PHA bins.
Reduced chi-squared = 9.756826 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
307.997 -3 85.90 14.74 0.2143 0.9384
0.7835 85.77 14.28 0.9322
206.633 -4 70.26 18.26 0.3682 0.9192
0.6961 70.80 17.73 0.9208
171.952 0 73.28 15.68 0.3695 0.9191
0.6947 73.63 16.22 0.9204
159.484 -1 75.42 11.44 0.3047 0.9118
0.7087 76.03 10.15 0.9128
144.077 -2 75.05 10.54 0.2531 0.8909
0.6813 75.80 10.87 0.8926
143.127 -3 74.60 10.31 0.2487 0.8511
0.5718 75.53 10.74 0.8541
142.244 -4 74.48 10.24 0.2479 0.8382
0.5462 75.42 10.72 0.8401
142.239 -5 74.48 10.23 0.2476 0.8383
0.5462 75.42 10.71 0.8399
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.26E-05 | 0.00 0.00 -0.19 0.61 -0.52 0.00 0.00 0.57
1.80E-05 | 0.00 0.00 -0.01 -0.69 -0.01 0.00 0.00 0.73
2.35E-04 | 0.00 0.06 -0.98 -0.11 0.11 0.00 0.06 -0.11
1.02E-02 | 0.03 0.00 -0.01 -0.38 -0.85 0.03 0.00 -0.36
1.81E-02 | 0.00 -0.66 0.00 0.00 0.00 0.01 0.75 0.00
3.92E-02 | 0.03 0.75 0.08 0.01 -0.01 0.03 0.66 0.01
9.01E-01 | -0.87 0.01 0.00 0.00 -0.01 0.49 0.00 0.00
1.16E+00 | 0.48 -0.02 0.00 0.01 0.03 0.87 -0.03 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 74.4769 +/- 0.979546 1
2 2 1 gaussian Sigma keV 10.2270 +/- 0.175235 1
3 3 1 gaussian norm 0.247644 +/- 0.225269E-01 1
4 4 2 powerlaw PhoIndex 0.838309 +/- 0.420605E-01 1
5 5 2 powerlaw norm 0.546207 +/- 0.941028E-01 1
6 6 3 gaussian LineE keV 75.4180 +/- 1.04686 2
7 7 3 gaussian Sigma keV 10.7099 +/- 0.167061 2
8 3 3 gaussian norm 0.247644 = par 3 2
9 8 4 powerlaw PhoIndex 0.839884 +/- 0.402810E-01 2
10 5 4 powerlaw norm 0.546207 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 142.2390 using 168 PHA bins.
Reduced chi-squared = 0.8889939 for 160 degrees of freedom
Null hypothesis probability = 0.840
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 72.9472 75.9976 ( -1.52978 , 1.52066 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 73.7853 77.0321 ( -1.63274 , 1.61414 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.474 photons ( 1.7754E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.466 photons ( 1.7689E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
6.135775
=====best line=====
74.4747 0.978121
=====best sigma=====
10.2283 0.178745
=====norm=====
0.247647 0.225065E-01
=====phoindx=====
0.838290 0.420343E-01
=====pow_norm=====
0.546171 0.940734E-01
=====best line=====
75.4172 1.04668
=====best sigma=====
10.7104 0.166955
=====norm=====
0.247647 par
=====phoindx=====
0.839869 0.402550E-01
=====pow_norm=====
0.546171 par
=====redu_chi=====
0.8889936
=====slow error=====
-1.52779 1.52282
=====fast error=====
-1.63219 1.61473
=====area_flux=====
1.474
=====area_flux_f=====
1.466
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
24.40488 25.97536
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 8 1 640 2000 1191.5952 24.40488 0.247647 0.225065E-01 10.2283 0.178745 0.838290 0.420343E-01 0.546171 0.940734E-01 1.474 640 2000 1206.6752 25.97536 0.247647 0.225065E-01 10.7104 0.166955 0.839869 0.402550E-01 0.546171 0.940734E-01 1.466 0.8889936 0
=====redu_chi=====
18.66285
=====best line=====
121.584 0.744413
=====best sigma=====
19.3655 8.49976
=====norm=====
1.43055 0.327908E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
118.363 0.785267
=====best sigma=====
19.3655 8.20987
=====norm=====
1.43055 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
3.877702
=====area_flux=====
1.241
=====area_flux_f=====
1.185
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
24.40488 25.97536
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 8 1 1600 3200 1945.344 24.40488 1.43055 0.327908E-01 309.848 135.99616 9.50000 -1.00000 0.00000 -1.00000 1.241 1600 3200 1893.808 25.97536 1.43055 0.327908E-01 309.848 131.35792 9.50000 -1.00000 0.00000 -1.00000 1.185 3.877702 1
=====redu_chi=====
9.756826
=====best line=====
74.4769 0.979546
=====best sigma=====
10.2270 0.175235
=====norm=====
0.247644 0.225269E-01
=====phoindx=====
0.838309 0.420605E-01
=====pow_norm=====
0.546207 0.941028E-01
=====best line=====
75.4180 1.04686
=====best sigma=====
10.7099 0.167061
=====norm=====
0.247644 par
=====phoindx=====
0.839884 0.402810E-01
=====pow_norm=====
0.546207 par
=====redu_chi=====
0.8889939
=====slow error=====
-1.52978 1.52066
=====fast error=====
-1.63274 1.61414
=====area_flux=====
1.474
=====area_flux_f=====
1.466
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
24.40352 25.97504
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 8 1 640 2000 1191.6304 24.40352 0.247644 0.225269E-01 10.2270 0.175235 0.838309 0.420605E-01 0.546207 0.941028E-01 1.474 640 2000 1206.688 25.97504 0.247644 0.225269E-01 10.7099 0.167061 0.839884 0.402810E-01 0.546207 0.941028E-01 1.466 0.8889939 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:30 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.413 +/- 3.4545E-02
Net count rate (cts/s) for file 2 3.413 +/- 3.4545E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 11205.31 using 168 PHA bins.
Reduced chi-squared = 70.03318 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 839.9853 using 168 PHA bins.
Reduced chi-squared = 5.249908 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
236.320 -3 84.23 15.54 0.2183 0.9459
0.7267 84.16 15.45 0.9367
189.146 -4 76.12 9.182 0.1396 0.8309
0.4955 76.20 9.121 0.8331
187.035 -2 77.05 13.22 0.1885 0.8540
0.5433 77.88 15.93 0.8513
181.453 -2 78.62 9.232 0.1310 0.8664
0.5999 78.68 6.691 0.8643
177.490 -3 77.25 14.28 0.1810 0.9204
0.7142 78.37 12.64 0.9161
169.464 -4 80.30 8.987 0.1618 0.9600
0.8577 79.59 9.661 0.9561
161.446 0 79.22 9.774 0.1703 0.9584
0.8614 79.23 9.956 0.9556
159.678 0 78.60 10.24 0.1769 0.9581
0.8610 79.04 10.70 0.9559
157.785 -1 77.97 10.73 0.1951 0.9591
0.8544 78.76 10.85 0.9575
157.630 -2 78.05 10.63 0.1998 0.9581
0.8471 78.72 10.98 0.9566
157.611 -3 77.98 10.65 0.1996 0.9537
0.8315 78.70 10.95 0.9522
157.607 -4 77.98 10.62 0.1992 0.9519
0.8254 78.68 10.94 0.9503
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.55E-05 | 0.00 0.00 -0.24 0.64 -0.37 0.00 0.00 0.64
1.91E-05 | 0.00 0.00 0.00 -0.70 0.01 0.00 0.00 0.71
2.12E-04 | 0.00 0.05 -0.97 -0.15 0.11 0.00 0.05 -0.15
2.19E-02 | 0.04 0.16 -0.01 -0.27 -0.91 0.04 0.09 -0.26
2.42E-02 | 0.00 -0.73 -0.01 -0.02 -0.05 0.01 0.68 -0.01
5.71E-02 | 0.01 0.66 0.07 0.06 0.16 0.01 0.72 0.06
1.63E+00 | 0.55 -0.02 0.00 0.01 0.04 0.84 -0.02 0.01
1.33E+00 | 0.84 -0.01 0.00 0.00 0.01 -0.55 0.00 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.9782 +/- 1.19133 1
2 2 1 gaussian Sigma keV 10.6184 +/- 0.198133 1
3 3 1 gaussian norm 0.199198 +/- 0.221756E-01 1
4 4 2 powerlaw PhoIndex 0.951901 +/- 0.453334E-01 1
5 5 2 powerlaw norm 0.825363 +/- 0.150326 1
6 6 3 gaussian LineE keV 78.6824 +/- 1.24139 2
7 7 3 gaussian Sigma keV 10.9378 +/- 0.204819 2
8 3 3 gaussian norm 0.199198 = par 3 2
9 8 4 powerlaw PhoIndex 0.950339 +/- 0.435448E-01 2
10 5 4 powerlaw norm 0.825363 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 157.6072 using 168 PHA bins.
Reduced chi-squared = 0.9850451 for 160 degrees of freedom
Null hypothesis probability = 0.539
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.1103 79.8422 ( -1.86789 , 1.86395 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.7281 80.6183 ( -1.95434 , 1.93584 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.341 photons ( 1.6107E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.349 photons ( 1.6222E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:30 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.781 +/- 5.2161E-02
Net count rate (cts/s) for file 2 7.781 +/- 5.2161E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.369 +/- 6.2563E-02( 56.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.369 +/- 6.2563E-02( 56.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 26349.75 using 198 PHA bins.
Reduced chi-squared = 138.6829 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3639.494 using 198 PHA bins.
Reduced chi-squared = 19.15523 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2430.78 -3 128.0 18.49 0.4670 3.433
2.321 128.1 18.45 3.350
1410.64 -4 104.7 19.20 1.746 8.315
1.9391E+04 98.52 19.31 7.745
1344.52 -1 105.9 19.31 2.075 9.352
2801. 102.4 19.35 8.957
1221.12 0 107.0 19.36 1.984 9.440
1256. 104.2 19.36 9.412
1114.54 0 108.3 19.37 1.914 9.495
97.04 106.1 19.36 9.500
1020.50 0 109.7 19.37 1.858 9.498
30.81 107.9 19.37 9.500
941.333 0 111.0 19.37 1.813 9.499
10.61 109.5 19.37 9.500
877.407 0 112.1 19.37 1.775 9.500
4.723 110.9 19.37 9.500
827.546 0 113.2 19.37 1.744 9.500
1.296 112.1 19.37 9.500
789.605 0 114.1 19.37 1.718 9.500
0.3374 113.1 19.37 9.500
761.057 0 114.9 19.37 1.696 9.500
7.8440E-02 113.9 19.37 9.500
739.701 0 115.5 19.37 1.678 9.500
8.9690E-03 114.5 19.37 9.500
723.761 0 116.0 19.37 1.663 9.500
4.1655E-03 115.0 19.37 9.500
711.726 0 116.5 19.37 1.651 9.500
8.0007E-04 115.4 19.37 9.500
702.754 0 116.9 19.37 1.641 9.500
2.3109E-04 115.8 19.37 9.500
686.031 0 117.6 19.37 1.617 9.500
7.2201E-06 116.3 19.37 9.500
682.896 0 117.8 19.37 1.613 9.500
3.4708E-06 116.4 19.37 9.500
680.483 0 117.9 19.37 1.609 9.500
1.5830E-06 116.5 19.37 9.500
678.540 0 118.0 19.37 1.606 9.500
6.3218E-07 116.5 19.37 9.500
677.114 0 118.1 19.37 1.603 9.500
1.5461E-07 116.6 19.37 9.500
676.017 0 118.1 19.37 1.602 9.500
3.4867E-08 116.6 19.37 9.500
675.136 0 118.2 19.37 1.600 9.500
4.8430E-09 116.7 19.37 9.500
674.345 0 118.2 19.37 1.599 9.500
1.0738E-09 116.7 19.37 9.500
673.814 0 118.3 19.37 1.598 9.500
1.2875E-10 116.7 19.37 9.500
673.346 0 118.3 19.37 1.597 9.500
1.0434E-11 116.7 19.37 9.500
672.958 0 118.3 19.37 1.596 9.500
3.0185E-12 116.7 19.37 9.500
672.738 0 118.3 19.37 1.596 9.500
1.1658E-12 116.8 19.37 9.500
Fit parameter 5 has pegged
671.234 0 118.3 19.37 1.590 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
670.777 0 118.3 19.37 1.587 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
670.664 0 118.3 19.37 1.587 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
670.580 0 118.4 19.37 1.586 9.500
0.000 116.5 19.37 9.500
Fit parameter 5 has pegged
668.356 0 118.4 19.37 1.580 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
666.346 0 118.5 19.37 1.575 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
664.526 0 118.6 19.37 1.569 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
662.871 0 118.7 19.37 1.565 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
661.363 0 118.7 19.37 1.560 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
659.991 0 118.8 19.37 1.556 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
658.737 0 118.9 19.37 1.552 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
657.587 0 118.9 19.37 1.549 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
656.536 0 119.0 19.37 1.545 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
655.569 0 119.1 19.37 1.542 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
654.681 0 119.1 19.37 1.539 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
653.864 0 119.2 19.37 1.536 9.500
0.000 117.1 19.37 9.500
Fit parameter 5 has pegged
653.114 0 119.2 19.37 1.534 9.500
0.000 117.1 19.37 9.500
Fit parameter 5 has pegged
652.421 0 119.3 19.37 1.531 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
651.784 0 119.4 19.37 1.529 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
651.194 0 119.4 19.37 1.527 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
650.651 0 119.5 19.37 1.525 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
650.150 0 119.5 19.37 1.523 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
649.686 0 119.6 19.37 1.521 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
649.258 0 119.6 19.37 1.519 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
648.862 0 119.7 19.37 1.517 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
648.495 0 119.7 19.37 1.516 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
648.155 0 119.7 19.37 1.514 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
647.839 0 119.8 19.37 1.513 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
647.548 0 119.8 19.37 1.512 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
647.278 0 119.9 19.37 1.510 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
647.026 0 119.9 19.37 1.509 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
646.794 0 119.9 19.37 1.508 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
646.578 0 120.0 19.37 1.507 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
646.377 0 120.0 19.37 1.506 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
646.192 0 120.0 19.37 1.505 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
646.017 0 120.1 19.37 1.504 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
645.856 0 120.1 19.37 1.503 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
645.706 0 120.1 19.37 1.502 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
645.566 0 120.1 19.37 1.502 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
645.435 0 120.2 19.37 1.501 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
645.314 0 120.2 19.37 1.500 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
645.201 0 120.2 19.37 1.500 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
645.095 0 120.2 19.37 1.499 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
644.997 0 120.2 19.37 1.498 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
644.905 0 120.3 19.37 1.498 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
644.819 0 120.3 19.37 1.497 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
644.739 0 120.3 19.37 1.497 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
644.665 0 120.3 19.37 1.496 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
644.596 0 120.3 19.37 1.496 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.529 0 120.4 19.37 1.495 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.467 0 120.4 19.37 1.495 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.410 0 120.4 19.37 1.494 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.356 0 120.4 19.37 1.494 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.306 0 120.4 19.37 1.493 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.258 0 120.4 19.37 1.493 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.214 0 120.4 19.37 1.493 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.172 0 120.5 19.37 1.492 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.133 0 120.5 19.37 1.492 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.095 0 120.5 19.37 1.492 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.061 0 120.5 19.37 1.491 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
644.028 0 120.5 19.37 1.491 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
643.996 0 120.5 19.37 1.491 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
643.968 0 120.5 19.37 1.491 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.940 0 120.5 19.37 1.490 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.915 0 120.5 19.37 1.490 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.890 0 120.5 19.37 1.490 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.867 0 120.5 19.37 1.490 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.846 0 120.6 19.37 1.489 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.826 0 120.6 19.37 1.489 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.806 0 120.6 19.37 1.489 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.788 0 120.6 19.37 1.489 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.770 0 120.6 19.37 1.489 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.755 0 120.6 19.37 1.489 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.739 0 120.6 19.37 1.488 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.725 0 120.6 19.37 1.488 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.712 0 120.6 19.37 1.488 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.698 0 120.6 19.37 1.488 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.685 0 120.6 19.37 1.488 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.674 0 120.6 19.37 1.488 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.663 0 120.6 19.37 1.488 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.652 0 120.6 19.37 1.488 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.642 0 120.6 19.37 1.487 9.500
0.000 118.0 19.37 9.500
643.621 0 120.6 19.37 1.487 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.612 0 120.6 19.37 1.487 9.500
0.000 118.0 19.37 9.500
643.593 0 120.7 19.37 1.487 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.586 0 120.7 19.37 1.487 9.500
0.000 118.0 19.37 9.500
643.571 0 120.7 19.37 1.487 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
643.563 0 120.7 19.37 1.487 9.500
0.000 118.0 19.37 9.500
643.549 0 120.7 19.37 1.487 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
643.544 0 120.7 19.37 1.487 9.500
0.000 118.1 19.37 9.500
643.532 0 120.7 19.37 1.486 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
643.528 0 120.7 19.37 1.486 9.500
0.000 118.1 19.37 9.500
643.517 0 120.7 19.37 1.486 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
643.513 0 120.7 19.37 1.486 9.500
0.000 118.1 19.37 9.500
643.504 0 120.7 19.37 1.486 9.500
0.000 118.1 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
5.38E-04 | -0.01 0.00 -1.00 -0.01 0.00
3.58E-01 | 0.65 0.02 0.00 -0.76 -0.03
3.99E-01 | -0.76 -0.04 0.01 -0.65 -0.04
9.65E+01 | -0.03 0.77 0.00 -0.04 0.64
5.09E+01 | 0.02 -0.64 0.00 -0.03 0.77
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 120.691 +/- 0.716956 1
2 2 1 gaussian Sigma keV 19.3655 +/- 8.80649 1
3 3 1 gaussian norm 1.48611 +/- 0.335737E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 118.066 +/- 0.756193 2
7 7 3 gaussian Sigma keV 19.3655 +/- 8.34173 2
8 3 3 gaussian norm 1.48611 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 643.5040 using 198 PHA bins.
Reduced chi-squared = 3.386863 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.267) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.267) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.274 photons ( 2.5674E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.225 photons ( 2.4368E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:31 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.413 +/- 3.4545E-02
Net count rate (cts/s) for file 2 3.413 +/- 3.4545E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13725.80 using 168 PHA bins.
Reduced chi-squared = 85.78624 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1298.372 using 168 PHA bins.
Reduced chi-squared = 8.114822 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
399.235 -3 86.67 13.19 0.1732 1.002
0.8395 86.59 12.69 0.9889
183.421 -4 75.92 15.63 0.2280 0.9743
0.8936 76.51 14.87 0.9733
167.112 -1 80.04 9.109 0.1892 0.9728
0.9044 79.83 9.594 0.9705
159.953 0 79.16 9.963 0.1882 0.9722
0.9058 79.41 11.13 0.9703
158.890 0 78.62 11.11 0.1911 0.9722
0.9052 79.15 10.87 0.9704
157.858 -1 78.27 10.72 0.1997 0.9724
0.9003 78.86 10.98 0.9708
157.756 -2 78.11 10.76 0.2021 0.9687
0.8846 78.80 11.03 0.9672
157.628 -3 78.05 10.64 0.1998 0.9568
0.8429 78.73 10.95 0.9557
157.609 -4 77.98 10.64 0.1995 0.9521
0.8262 78.68 10.95 0.9507
157.607 -5 77.98 10.62 0.1992 0.9518
0.8250 78.68 10.94 0.9502
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.55E-05 | 0.00 0.00 -0.24 0.64 -0.37 0.00 0.00 0.63
1.91E-05 | 0.00 0.00 0.00 -0.70 0.01 0.00 0.00 0.71
2.12E-04 | 0.00 0.05 -0.97 -0.15 0.11 0.00 0.05 -0.15
2.17E-02 | 0.04 0.16 -0.01 -0.27 -0.91 0.04 0.09 -0.26
2.42E-02 | 0.00 -0.73 -0.01 -0.02 -0.05 0.01 0.68 -0.01
5.71E-02 | 0.01 0.66 0.07 0.06 0.15 0.01 0.72 0.06
1.64E+00 | -0.54 0.02 0.00 -0.01 -0.04 -0.84 0.02 -0.01
1.33E+00 | -0.84 0.01 0.00 0.00 -0.01 0.54 0.00 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.9767 +/- 1.19128 1
2 2 1 gaussian Sigma keV 10.6165 +/- 0.198079 1
3 3 1 gaussian norm 0.199154 +/- 0.221670E-01 1
4 4 2 powerlaw PhoIndex 0.951830 +/- 0.453073E-01 1
5 5 2 powerlaw norm 0.824953 +/- 0.149306 1
6 6 3 gaussian LineE keV 78.6816 +/- 1.24259 2
7 7 3 gaussian Sigma keV 10.9351 +/- 0.204993 2
8 3 3 gaussian norm 0.199154 = par 3 2
9 8 4 powerlaw PhoIndex 0.950206 +/- 0.435194E-01 2
10 5 4 powerlaw norm 0.824953 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 157.6069 using 168 PHA bins.
Reduced chi-squared = 0.9850432 for 160 degrees of freedom
Null hypothesis probability = 0.539
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.1092 79.8414 ( -1.86751 , 1.86467 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.7273 80.6174 ( -1.95432 , 1.93579 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.341 photons ( 1.6103E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.349 photons ( 1.6223E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
5.249908
=====best line=====
77.9782 1.19133
=====best sigma=====
10.6184 0.198133
=====norm=====
0.199198 0.221756E-01
=====phoindx=====
0.951901 0.453334E-01
=====pow_norm=====
0.825363 0.150326
=====best line=====
78.6824 1.24139
=====best sigma=====
10.9378 0.204819
=====norm=====
0.199198 par
=====phoindx=====
0.950339 0.435448E-01
=====pow_norm=====
0.825363 par
=====redu_chi=====
0.9850451
=====slow error=====
-1.86789 1.86395
=====fast error=====
-1.95434 1.93584
=====area_flux=====
1.341
=====area_flux_f=====
1.349
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
29.85472 31.12144
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 9 1 640 2000 1247.6512 29.85472 0.199198 0.221756E-01 10.6184 0.198133 0.951901 0.453334E-01 0.825363 0.150326 1.341 640 2000 1258.9184 31.12144 0.199198 0.221756E-01 10.9378 0.204819 0.950339 0.435448E-01 0.825363 0.150326 1.349 0.9850451 0
=====redu_chi=====
19.15523
=====best line=====
120.691 0.716956
=====best sigma=====
19.3655 8.80649
=====norm=====
1.48611 0.335737E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
118.066 0.756193
=====best sigma=====
19.3655 8.34173
=====norm=====
1.48611 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
3.386863
=====area_flux=====
1.274
=====area_flux_f=====
1.225
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
29.85472 31.12144
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 9 1 1600 3200 1931.056 29.85472 1.48611 0.335737E-01 309.848 140.90384 9.50000 -1.00000 0.00000 -1.00000 1.274 1600 3200 1889.056 31.12144 1.48611 0.335737E-01 309.848 133.46768 9.50000 -1.00000 0.00000 -1.00000 1.225 3.386863 1
=====redu_chi=====
8.114822
=====best line=====
77.9767 1.19128
=====best sigma=====
10.6165 0.198079
=====norm=====
0.199154 0.221670E-01
=====phoindx=====
0.951830 0.453073E-01
=====pow_norm=====
0.824953 0.149306
=====best line=====
78.6816 1.24259
=====best sigma=====
10.9351 0.204993
=====norm=====
0.199154 par
=====phoindx=====
0.950206 0.435194E-01
=====pow_norm=====
0.824953 par
=====redu_chi=====
0.9850432
=====slow error=====
-1.86751 1.86467
=====fast error=====
-1.95432 1.93579
=====area_flux=====
1.341
=====area_flux_f=====
1.349
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
29.85744 31.12088
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 9 1 640 2000 1247.6272 29.85744 0.199154 0.221670E-01 10.6165 0.198079 0.951830 0.453073E-01 0.824953 0.149306 1.341 640 2000 1258.9056 31.12088 0.199154 0.221670E-01 10.9351 0.204993 0.950206 0.435194E-01 0.824953 0.149306 1.349 0.9850432 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:31 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.501 +/- 3.4986E-02
Net count rate (cts/s) for file 2 3.501 +/- 3.4986E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12178.82 using 168 PHA bins.
Reduced chi-squared = 76.11760 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1207.761 using 168 PHA bins.
Reduced chi-squared = 7.548506 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
578.942 -3 82.77 16.79 0.2661 1.047
0.9019 82.09 16.92 1.035
342.819 -3 74.29 7.476 0.1051 0.7995
0.4288 72.28 6.673 0.8096
341.478 -3 75.11 13.88 0.1957 0.9383
0.6874 75.12 14.65 0.9310
291.954 -2 77.79 7.716 6.1352E-02 0.9227
0.8365 76.50 6.701 0.9224
280.152 -1 72.83 15.22 0.1669 0.9333
0.8100 74.83 15.00 0.9332
225.195 -1 79.01 7.008 0.1246 0.9335
0.8233 75.70 6.816 0.9319
202.316 -1 76.15 10.37 0.1773 0.9386
0.8171 75.43 9.183 0.9380
196.570 -2 75.68 9.613 0.1775 0.9506
0.8578 75.38 7.707 0.9499
193.005 -3 75.83 8.468 0.1939 0.9859
0.9735 75.45 8.963 0.9844
191.444 -4 75.63 9.109 0.1947 0.9963
1.026 75.53 8.421 0.9950
191.261 -5 75.78 8.768 0.1934 0.9970
1.034 75.53 8.620 0.9966
191.228 -6 75.69 8.982 0.1948 0.9966
1.031 75.52 8.578 0.9961
191.220 -7 75.75 8.833 0.1933 0.9966
1.033 75.53 8.555 0.9961
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.57E-05 | 0.00 0.00 -0.23 0.65 -0.30 0.00 0.00 0.66
1.83E-05 | 0.00 0.00 0.00 -0.71 0.01 0.00 0.00 0.71
1.72E-04 | 0.00 0.01 -0.97 -0.15 0.08 0.00 0.01 -0.15
3.03E-02 | 0.04 0.01 -0.01 -0.23 -0.95 0.04 0.01 -0.22
5.61E-01 | -0.05 -0.64 0.00 0.00 0.01 0.13 0.75 0.00
1.18E+00 | -0.44 0.63 0.01 0.00 -0.02 -0.31 0.56 0.00
9.15E-01 | -0.88 -0.33 -0.01 -0.01 -0.04 -0.02 -0.34 -0.01
8.14E-01 | -0.16 0.28 0.00 0.01 0.03 0.94 0.07 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.7483 +/- 0.980887 1
2 2 1 gaussian Sigma keV 8.83265 +/- 0.930832 1
3 3 1 gaussian norm 0.193349 +/- 0.178637E-01 1
4 4 2 powerlaw PhoIndex 0.996639 +/- 0.417181E-01 1
5 5 2 powerlaw norm 1.03286 +/- 0.173562 1
6 6 3 gaussian LineE keV 75.5307 +/- 0.918297 2
7 7 3 gaussian Sigma keV 8.55518 +/- 0.892712 2
8 3 3 gaussian norm 0.193349 = par 3 2
9 8 4 powerlaw PhoIndex 0.996148 +/- 0.399754E-01 2
10 5 4 powerlaw norm 1.03286 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 191.2200 using 168 PHA bins.
Reduced chi-squared = 1.195125 for 160 degrees of freedom
Null hypothesis probability = 4.650E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 74.1713 77.2708 ( -1.57703 , 1.52245 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 74.0465 76.9950 ( -1.48419 , 1.46427 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.375 photons ( 1.6369E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.377 photons ( 1.6392E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:31 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.374 +/- 5.4112E-02
Net count rate (cts/s) for file 2 8.374 +/- 5.4112E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.874 +/- 6.4437E-02( 58.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.874 +/- 6.4437E-02( 58.2% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 25584.01 using 198 PHA bins.
Reduced chi-squared = 134.6527 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3716.676 using 198 PHA bins.
Reduced chi-squared = 19.56145 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2561.73 -3 129.7 18.48 0.4616 3.535
2.560 129.3 18.44 3.449
1593.43 -4 103.2 19.27 1.807 7.229
1.7967E+04 97.95 19.12 9.431
1554.09 -1 104.3 19.33 2.141 8.837
8419. 100.5 19.36 9.473
1443.41 0 105.4 19.36 2.049 9.436
2511. 102.1 19.36 9.500
1342.06 0 106.6 19.36 1.978 9.471
638.5 103.9 19.37 9.500
1248.01 0 108.0 19.37 1.920 9.494
302.9 105.6 19.37 9.500
1163.77 0 109.3 19.37 1.872 9.499
86.53 107.3 19.37 9.500
1091.34 0 110.5 19.37 1.832 9.500
22.60 108.8 19.37 9.500
1030.91 0 111.6 19.37 1.798 9.500
3.397 110.1 19.37 9.500
981.660 0 112.6 19.37 1.770 9.500
0.5131 111.3 19.37 9.500
942.297 0 113.5 19.37 1.746 9.500
0.1108 112.3 19.37 9.500
911.247 0 114.3 19.37 1.725 9.500
5.5143E-02 113.1 19.37 9.500
886.757 0 114.9 19.37 1.708 9.500
2.4626E-02 113.8 19.37 9.500
867.532 0 115.5 19.37 1.694 9.500
8.2905E-03 114.4 19.37 9.500
852.352 0 116.0 19.37 1.682 9.500
3.5288E-03 114.9 19.37 9.500
840.396 0 116.4 19.37 1.671 9.500
1.8930E-04 115.3 19.37 9.500
816.883 0 117.2 19.37 1.647 9.500
4.0478E-06 116.0 19.37 9.500
811.899 0 117.4 19.37 1.642 9.500
3.9398E-07 116.2 19.37 9.500
807.957 0 117.6 19.37 1.637 9.500
1.6362E-07 116.3 19.37 9.500
804.798 0 117.7 19.37 1.634 9.500
4.6577E-08 116.4 19.37 9.500
802.275 0 117.9 19.37 1.631 9.500
1.6941E-08 116.5 19.37 9.500
800.245 0 118.0 19.37 1.628 9.500
2.0900E-09 116.6 19.37 9.500
798.519 0 118.0 19.37 1.626 9.500
2.1062E-10 116.6 19.37 9.500
797.045 0 118.1 19.37 1.624 9.500
9.2778E-11 116.7 19.37 9.500
795.905 0 118.2 19.37 1.623 9.500
3.3717E-11 116.7 19.37 9.500
795.067 0 118.2 19.37 1.622 9.500
4.0017E-12 116.8 19.37 9.500
794.338 0 118.2 19.37 1.621 9.500
2.7886E-13 116.8 19.37 9.500
Fit parameter 5 has pegged
791.886 0 118.3 19.37 1.615 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
790.915 0 118.3 19.37 1.612 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
790.448 0 118.3 19.37 1.611 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
790.197 0 118.3 19.37 1.610 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
790.151 0 118.3 19.37 1.610 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
790.076 0 118.4 19.37 1.610 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
790.054 0 118.4 19.37 1.610 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
790.005 0 118.4 19.37 1.610 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
789.961 0 118.4 19.37 1.610 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
789.864 0 118.4 19.37 1.610 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
789.787 0 118.4 19.37 1.610 9.500
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
785.928 0 118.5 19.37 1.602 9.500
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
782.459 0 118.5 19.37 1.594 9.500
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
779.321 0 118.6 19.37 1.587 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
776.476 0 118.7 19.37 1.581 9.500
0.000 116.9 19.37 9.500
Fit parameter 5 has pegged
773.889 0 118.8 19.37 1.575 9.500
0.000 117.0 19.37 9.500
Fit parameter 5 has pegged
771.528 0 118.8 19.37 1.569 9.500
0.000 117.1 19.37 9.500
Fit parameter 5 has pegged
769.365 0 118.9 19.37 1.564 9.500
0.000 117.1 19.37 9.500
Fit parameter 5 has pegged
767.381 0 119.0 19.37 1.559 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
765.555 0 119.1 19.37 1.554 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
763.872 0 119.2 19.37 1.550 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
762.319 0 119.2 19.37 1.546 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
760.883 0 119.3 19.37 1.542 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
759.550 0 119.4 19.37 1.539 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
758.319 0 119.4 19.37 1.536 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
757.174 0 119.5 19.37 1.532 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
756.110 0 119.6 19.37 1.529 9.500
0.000 117.7 19.37 9.500
Fit parameter 5 has pegged
755.121 0 119.6 19.37 1.527 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
754.202 0 119.7 19.37 1.524 9.500
0.000 117.8 19.37 9.500
Fit parameter 5 has pegged
753.346 0 119.8 19.37 1.522 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
752.549 0 119.8 19.37 1.519 9.500
0.000 117.9 19.37 9.500
Fit parameter 5 has pegged
751.807 0 119.9 19.37 1.517 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
751.115 0 119.9 19.37 1.515 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
750.469 0 120.0 19.37 1.513 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
749.865 0 120.1 19.37 1.511 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
749.302 0 120.1 19.37 1.509 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
748.778 0 120.2 19.37 1.508 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
748.286 0 120.2 19.37 1.506 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
747.829 0 120.3 19.37 1.505 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
747.400 0 120.3 19.37 1.503 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
746.999 0 120.3 19.37 1.502 9.500
0.000 118.3 19.37 9.500
Fit parameter 5 has pegged
746.623 0 120.4 19.37 1.500 9.500
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
746.272 0 120.4 19.37 1.499 9.500
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
745.942 0 120.5 19.37 1.498 9.500
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
745.635 0 120.5 19.37 1.497 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
745.346 0 120.5 19.37 1.496 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
745.075 0 120.6 19.37 1.495 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
744.821 0 120.6 19.37 1.494 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
744.583 0 120.7 19.37 1.493 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
744.359 0 120.7 19.37 1.492 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
744.150 0 120.7 19.37 1.491 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
743.953 0 120.7 19.37 1.490 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
743.767 0 120.8 19.37 1.489 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
743.594 0 120.8 19.37 1.488 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
743.430 0 120.8 19.37 1.488 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
743.275 0 120.9 19.37 1.487 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
743.132 0 120.9 19.37 1.486 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
742.996 0 120.9 19.37 1.486 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
742.868 0 120.9 19.37 1.485 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
742.747 0 121.0 19.37 1.484 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
742.633 0 121.0 19.37 1.484 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
742.527 0 121.0 19.37 1.483 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
742.426 0 121.0 19.37 1.483 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
742.331 0 121.0 19.37 1.482 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
742.241 0 121.1 19.37 1.482 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
742.156 0 121.1 19.37 1.481 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
742.077 0 121.1 19.37 1.481 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
742.002 0 121.1 19.37 1.480 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
741.931 0 121.1 19.37 1.480 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
741.863 0 121.1 19.37 1.479 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
741.799 0 121.2 19.37 1.479 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
741.739 0 121.2 19.37 1.479 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
741.681 0 121.2 19.37 1.478 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
741.627 0 121.2 19.37 1.478 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
741.576 0 121.2 19.37 1.478 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.529 0 121.2 19.37 1.477 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.481 0 121.2 19.37 1.477 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.438 0 121.2 19.37 1.477 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.396 0 121.3 19.37 1.477 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.358 0 121.3 19.37 1.476 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.321 0 121.3 19.37 1.476 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.285 0 121.3 19.37 1.476 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.252 0 121.3 19.37 1.476 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.220 0 121.3 19.37 1.475 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.189 0 121.3 19.37 1.475 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.161 0 121.3 19.37 1.475 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.133 0 121.3 19.37 1.475 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.107 0 121.3 19.37 1.475 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.083 0 121.3 19.37 1.474 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.059 0 121.4 19.37 1.474 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.037 0 121.4 19.37 1.474 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
741.016 0 121.4 19.37 1.474 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.995 0 121.4 19.37 1.474 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.976 0 121.4 19.37 1.474 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.957 0 121.4 19.37 1.473 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.939 0 121.4 19.37 1.473 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.923 0 121.4 19.37 1.473 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.907 0 121.4 19.37 1.473 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.892 0 121.4 19.37 1.473 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.878 0 121.4 19.37 1.473 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.864 0 121.4 19.37 1.473 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.850 0 121.4 19.37 1.473 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.838 0 121.4 19.37 1.472 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.826 0 121.4 19.37 1.472 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.814 0 121.4 19.37 1.472 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.802 0 121.4 19.37 1.472 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.792 0 121.4 19.37 1.472 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.782 0 121.4 19.37 1.472 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.772 0 121.5 19.37 1.472 9.500
0.000 119.1 19.37 9.500
740.751 0 121.5 19.37 1.472 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.742 0 121.5 19.37 1.472 9.500
0.000 119.1 19.37 9.500
740.725 0 121.5 19.37 1.472 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.718 0 121.5 19.37 1.472 9.500
0.000 119.1 19.37 9.500
740.701 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.694 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
740.680 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.674 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
740.661 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.655 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
740.643 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.639 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
740.629 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
740.626 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
740.616 0 121.5 19.37 1.471 9.500
0.000 119.1 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
5.13E-04 | -0.01 0.00 -1.00 -0.01 0.00
3.64E-01 | 0.62 0.01 0.00 -0.78 -0.03
4.06E-01 | -0.78 -0.03 0.01 -0.62 -0.03
1.01E+02 | -0.03 0.77 0.00 -0.04 0.64
5.15E+01 | 0.01 -0.64 0.00 -0.03 0.77
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 121.511 +/- 0.706815 1
2 2 1 gaussian Sigma keV 19.3655 +/- 8.95878 1
3 3 1 gaussian norm 1.47071 +/- 0.332618E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 119.146 +/- 0.734225 2
7 7 3 gaussian Sigma keV 19.3655 +/- 8.45557 2
8 3 3 gaussian norm 1.47071 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 740.6165 using 198 PHA bins.
Reduced chi-squared = 3.897981 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.759) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.759) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.274 photons ( 2.5794E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.233 photons ( 2.4658E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:32 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.501 +/- 3.4986E-02
Net count rate (cts/s) for file 2 3.501 +/- 3.4986E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 15518.23 using 168 PHA bins.
Reduced chi-squared = 96.98896 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1783.627 using 168 PHA bins.
Reduced chi-squared = 11.14767 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
790.695 -3 85.54 14.35 0.1709 1.058
0.9444 85.07 14.59 1.043
347.584 -4 69.21 16.04 0.2011 0.8464
0.4961 66.57 15.88 0.8556
246.966 -2 78.77 7.678 0.1613 0.8840
0.6213 79.14 8.324 0.8815
227.021 -3 75.92 10.08 0.1918 0.9794
0.8808 75.06 9.071 0.9743
194.807 -4 76.08 9.495 0.1804 0.9985
1.036 75.68 7.934 0.9969
191.635 -5 75.81 8.637 0.1947 0.9980
1.038 75.53 8.882 0.9977
191.301 -6 75.67 9.015 0.1940 0.9962
1.030 75.53 8.439 0.9956
191.230 -7 75.75 8.834 0.1940 0.9969
1.033 75.53 8.631 0.9964
191.215 -8 75.71 8.931 0.1942 0.9966
1.032 75.53 8.557 0.9960
191.212 -9 75.73 8.874 0.1939 0.9967
1.033 75.53 8.580 0.9962
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.57E-05 | 0.00 0.00 -0.23 0.65 -0.30 0.00 0.00 0.66
1.83E-05 | 0.00 0.00 0.00 -0.71 0.01 0.00 0.00 0.71
1.71E-04 | 0.00 0.01 -0.97 -0.15 0.08 0.00 0.01 -0.15
3.03E-02 | 0.04 0.01 -0.01 -0.23 -0.95 0.04 0.01 -0.22
5.59E-01 | -0.05 -0.65 0.00 0.00 0.00 0.12 0.75 0.00
1.17E+00 | 0.44 -0.63 -0.01 0.00 0.02 0.31 -0.56 0.00
9.07E-01 | 0.88 0.32 0.00 0.01 0.04 0.02 0.34 0.01
8.13E-01 | -0.16 0.28 0.00 0.01 0.03 0.94 0.08 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.7325 +/- 0.976091 1
2 2 1 gaussian Sigma keV 8.87362 +/- 0.925713 1
3 3 1 gaussian norm 0.193905 +/- 0.177914E-01 1
4 4 2 powerlaw PhoIndex 0.996670 +/- 0.416708E-01 1
5 5 2 powerlaw norm 1.03251 +/- 0.173411 1
6 6 3 gaussian LineE keV 75.5267 +/- 0.917743 2
7 7 3 gaussian Sigma keV 8.57998 +/- 0.891501 2
8 3 3 gaussian norm 0.193905 = par 3 2
9 8 4 powerlaw PhoIndex 0.996172 +/- 0.399302E-01 2
10 5 4 powerlaw norm 1.03251 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 191.2119 using 168 PHA bins.
Reduced chi-squared = 1.195075 for 160 degrees of freedom
Null hypothesis probability = 4.653E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 74.1757 77.2718 ( -1.55683 , 1.53930 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 74.0431 76.9897 ( -1.48367 , 1.46298 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.375 photons ( 1.6369E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.377 photons ( 1.6393E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
7.548506
=====best line=====
75.7483 0.980887
=====best sigma=====
8.83265 0.930832
=====norm=====
0.193349 0.178637E-01
=====phoindx=====
0.996639 0.417181E-01
=====pow_norm=====
1.03286 0.173562
=====best line=====
75.5307 0.918297
=====best sigma=====
8.55518 0.892712
=====norm=====
0.193349 par
=====phoindx=====
0.996148 0.399754E-01
=====pow_norm=====
1.03286 par
=====redu_chi=====
1.195125
=====slow error=====
-1.57703 1.52245
=====fast error=====
-1.48419 1.46427
=====area_flux=====
1.375
=====area_flux_f=====
1.377
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
24.79584 23.58768
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 10 1 640 2000 1211.9728 24.79584 0.193349 0.178637E-01 8.83265 0.930832 0.996639 0.417181E-01 1.03286 0.173562 1.375 640 2000 1208.4912 23.58768 0.193349 0.178637E-01 8.55518 0.892712 0.996148 0.399754E-01 1.03286 0.173562 1.377 1.195125 0
=====redu_chi=====
19.56145
=====best line=====
121.511 0.706815
=====best sigma=====
19.3655 8.95878
=====norm=====
1.47071 0.332618E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.146 0.734225
=====best sigma=====
19.3655 8.45557
=====norm=====
1.47071 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
3.897981
=====area_flux=====
1.274
=====area_flux_f=====
1.233
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
24.79584 23.58768
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 10 1 1600 3200 1944.176 24.79584 1.47071 0.332618E-01 309.848 143.34048 9.50000 -1.00000 0.00000 -1.00000 1.274 1600 3200 1906.336 23.58768 1.47071 0.332618E-01 309.848 135.28912 9.50000 -1.00000 0.00000 -1.00000 1.233 3.897981 1
=====redu_chi=====
11.14767
=====best line=====
75.7325 0.976091
=====best sigma=====
8.87362 0.925713
=====norm=====
0.193905 0.177914E-01
=====phoindx=====
0.996670 0.416708E-01
=====pow_norm=====
1.03251 0.173411
=====best line=====
75.5267 0.917743
=====best sigma=====
8.57998 0.891501
=====norm=====
0.193905 par
=====phoindx=====
0.996172 0.399302E-01
=====pow_norm=====
1.03251 par
=====redu_chi=====
1.195075
=====slow error=====
-1.55683 1.53930
=====fast error=====
-1.48367 1.46298
=====area_flux=====
1.375
=====area_flux_f=====
1.377
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
24.76904 23.5732
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 10 1 640 2000 1211.72 24.76904 0.193905 0.177914E-01 8.87362 0.925713 0.996670 0.416708E-01 1.03251 0.173411 1.375 640 2000 1208.4272 23.5732 0.193905 0.177914E-01 8.57998 0.891501 0.996172 0.399302E-01 1.03251 0.173411 1.377 1.195075 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:32 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 4.035 +/- 3.7559E-02
Net count rate (cts/s) for file 2 4.035 +/- 3.7559E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 8730.128 using 168 PHA bins.
Reduced chi-squared = 54.56330 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 986.1346 using 168 PHA bins.
Reduced chi-squared = 6.163342 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
295.818 -3 83.66 17.23 0.3555 0.9156
0.6960 83.41 16.89 0.9142
227.771 -2 74.11 19.13 0.4313 0.8954
0.6158 75.81 18.45 0.8993
225.109 0 74.15 18.72 0.4262 0.8946
0.6167 76.35 17.39 0.8981
223.778 0 74.17 18.43 0.4184 0.8937
0.6178 76.55 16.98 0.8970
222.459 0 74.18 18.12 0.4101 0.8928
0.6190 76.65 16.63 0.8958
221.074 0 74.19 17.81 0.4015 0.8917
0.6203 76.71 16.30 0.8945
219.605 0 74.20 17.48 0.3927 0.8907
0.6217 76.74 15.97 0.8933
213.065 -1 74.67 11.30 0.3225 0.8813
0.6310 77.23 12.75 0.8828
187.860 -2 73.58 10.75 0.2332 0.8394
0.5700 77.09 10.32 0.8422
183.941 -2 72.91 10.24 0.2315 0.8153
0.5142 76.56 10.29 0.8184
181.865 -2 72.69 9.989 0.2280 0.7960
0.4756 76.44 10.16 0.7989
181.851 -3 72.26 9.983 0.2278 0.7449
0.3759 76.07 10.22 0.7491
178.814 -4 72.13 9.960 0.2275 0.7282
0.3562 75.93 10.20 0.7307
178.801 -5 72.12 9.915 0.2273 0.7285
0.3564 75.93 10.20 0.7306
178.800 -6 72.12 9.885 0.2272 0.7284
0.3563 75.93 10.20 0.7305
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.73E-06 | 0.00 0.00 -0.16 0.52 -0.68 0.00 0.00 0.49
1.69E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
2.29E-04 | 0.00 0.01 -0.99 -0.08 0.11 0.00 0.05 -0.08
5.74E-03 | 0.02 0.00 0.00 -0.50 -0.73 0.02 -0.01 -0.48
3.44E-02 | -0.01 0.07 -0.05 0.00 0.01 -0.02 -1.00 0.00
1.34E+00 | 0.56 -0.55 -0.01 0.01 0.02 0.61 -0.05 0.01
9.34E-01 | 0.70 0.71 0.01 0.01 0.01 0.00 0.04 0.01
1.02E+00 | 0.44 -0.43 0.00 0.00 0.00 -0.79 -0.02 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 72.1159 +/- 1.03795 1
2 2 1 gaussian Sigma keV 9.88469 +/- 1.03282 1
3 3 1 gaussian norm 0.227187 +/- 0.219697E-01 1
4 4 2 powerlaw PhoIndex 0.728406 +/- 0.410000E-01 1
5 5 2 powerlaw norm 0.356320 +/- 0.605542E-01 1
6 6 3 gaussian LineE keV 75.9267 +/- 1.06613 2
7 7 3 gaussian Sigma keV 10.2004 +/- 0.200950 2
8 3 3 gaussian norm 0.227187 = par 3 2
9 8 4 powerlaw PhoIndex 0.730498 +/- 0.393508E-01 2
10 5 4 powerlaw norm 0.356320 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 178.7996 using 168 PHA bins.
Reduced chi-squared = 1.117497 for 160 degrees of freedom
Null hypothesis probability = 0.147
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 70.4985 73.7240 ( -1.61741 , 1.60812 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 74.2479 77.5850 ( -1.67883 , 1.65831 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.507 photons ( 1.8244E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.496 photons ( 1.8240E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:32 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 9.926 +/- 5.8911E-02
Net count rate (cts/s) for file 2 9.926 +/- 5.8911E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.891 +/- 6.9865E-02( 59.4% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.891 +/- 6.9865E-02( 59.4% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 35546.00 using 198 PHA bins.
Reduced chi-squared = 187.0842 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3857.858 using 198 PHA bins.
Reduced chi-squared = 20.30451 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2507.65 -3 127.2 19.34 0.6010 2.943
1.390 127.8 18.05 2.868
1254.02 -4 101.0 19.36 1.335 7.329
3.2224E+04 102.0 19.05 7.135
1076.58 -5 93.49 19.36 2.920 8.815
1.2370E+04 94.70 19.35 9.172
1021.13 0 94.34 19.36 2.821 9.432
2449. 95.60 19.36 9.405
962.386 0 95.33 19.37 2.737 9.468
78.53 96.63 19.36 9.458
958.377 -1 95.70 19.37 2.786 9.490
15.35 97.19 19.36 9.482
950.535 -1 95.91 19.37 2.787 9.500
6.256 97.52 19.37 9.500
942.558 -1 96.10 19.37 2.781 9.500
1.328 97.74 19.37 9.500
929.706 -1 96.33 19.37 2.764 9.500
6.2415E-02 97.99 19.37 9.500
917.083 -1 96.58 19.37 2.749 9.500
2.2056E-02 98.24 19.37 9.500
900.423 -1 96.90 19.37 2.727 9.500
1.4548E-03 98.54 19.37 9.500
882.641 -1 97.24 19.37 2.705 9.500
3.1945E-04 98.87 19.37 9.500
860.196 -1 97.66 19.37 2.676 9.500
1.5927E-04 99.26 19.37 9.500
838.436 -1 98.10 19.37 2.650 9.500
7.6068E-05 99.66 19.37 9.500
813.834 -1 98.57 19.37 2.620 9.500
3.2439E-05 100.1 19.37 9.500
752.763 -1 99.71 19.37 2.544 9.500
3.3083E-06 101.2 19.37 9.500
668.872 -1 101.3 19.37 2.434 9.500
2.3705E-07 102.5 19.37 9.500
621.014 -1 102.2 19.37 2.371 9.500
6.0917E-08 103.3 19.37 9.500
572.931 -1 103.2 19.37 2.307 9.500
1.5645E-08 104.2 19.37 9.500
530.173 -1 104.1 19.37 2.248 9.500
3.9667E-09 105.1 19.37 9.500
491.571 -1 105.0 19.37 2.189 9.500
9.9474E-10 105.9 19.37 9.500
459.784 -1 105.8 19.37 2.136 9.500
2.4365E-10 106.7 19.37 9.500
436.027 -1 106.6 19.37 2.090 9.500
5.4750E-11 107.4 19.37 9.500
418.386 -1 107.2 19.37 2.050 9.500
7.5505E-12 108.0 19.37 9.500
406.782 -1 107.7 19.37 2.020 9.500
1.6443E-12 108.4 19.37 9.500
Fit parameter 5 has pegged
388.270 -1 109.0 19.37 1.893 9.500
0.000 109.2 18.02 9.500
Fit parameter 5 has pegged
369.728 -2 109.5 19.37 1.872 9.500
0.000 109.6 18.75 9.500
Fit parameter 5 has pegged
362.952 -3 110.1 19.37 1.823 9.500
0.000 110.3 18.45 9.500
Fit parameter 5 has pegged
361.384 -4 110.4 19.37 1.811 9.500
0.000 110.5 18.45 9.500
Fit parameter 5 has pegged
360.781 -5 110.5 19.37 1.805 9.500
0.000 110.6 18.38 9.500
Fit parameter 5 has pegged
360.541 -6 110.5 19.37 1.802 9.500
0.000 110.7 18.38 9.500
Fit parameter 5 has pegged
360.525 -2 110.5 19.37 1.802 9.500
0.000 110.7 18.38 9.500
Fit parameter 5 has pegged
360.447 -3 110.6 19.37 1.801 9.500
0.000 110.7 18.37 9.500
Fit parameter 5 has pegged
360.445 -2 110.6 19.37 1.801 9.500
0.000 110.7 18.37 9.500
359.906 0 110.7 19.37 1.796 9.500
0.000 110.7 18.36 9.500
Fit parameter 5 has pegged
359.664 0 110.8 19.37 1.793 9.500
0.000 110.7 18.35 9.500
Fit parameter 5 has pegged
359.503 0 110.9 19.37 1.791 9.500
0.000 110.8 18.34 9.500
Fit parameter 5 has pegged
359.390 0 110.9 19.37 1.788 9.500
0.000 110.8 18.33 9.500
Fit parameter 5 has pegged
359.308 0 110.9 19.37 1.786 9.500
0.000 110.8 18.31 9.500
Fit parameter 5 has pegged
359.248 0 111.0 19.37 1.785 9.500
0.000 110.8 18.30 9.500
Fit parameter 5 has pegged
359.197 0 111.0 19.37 1.783 9.500
0.000 110.9 18.29 9.500
Fit parameter 5 has pegged
359.160 0 111.0 19.37 1.782 9.500
0.000 110.9 18.28 9.500
Fit parameter 5 has pegged
359.133 0 111.0 19.37 1.781 9.500
0.000 110.9 18.28 9.500
Fit parameter 5 has pegged
359.111 0 111.0 19.37 1.780 9.500
0.000 110.9 18.27 9.500
Fit parameter 5 has pegged
359.091 0 111.0 19.37 1.780 9.500
0.000 110.9 18.26 9.500
Fit parameter 5 has pegged
359.076 0 111.0 19.37 1.779 9.500
0.000 111.0 18.26 9.500
Fit parameter 5 has pegged
359.063 0 111.1 19.37 1.778 9.500
0.000 111.0 18.25 9.500
Fit parameter 5 has pegged
359.052 0 111.1 19.37 1.778 9.500
0.000 111.0 18.25 9.500
Fit parameter 5 has pegged
359.043 0 111.1 19.37 1.777 9.500
0.000 111.0 18.24 9.500
359.027 0 111.1 19.37 1.777 9.500
0.000 111.0 18.24 9.500
Fit parameter 5 has pegged
359.022 0 111.1 19.37 1.777 9.500
0.000 111.0 18.24 9.500
359.006 0 111.1 19.37 1.776 9.500
0.000 111.0 18.25 9.500
Fit parameter 5 has pegged
358.999 0 111.1 19.37 1.776 9.500
0.000 111.0 18.24 9.500
358.990 0 111.1 19.37 1.776 9.500
0.000 111.0 18.25 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
7.40E-04 | -0.02 0.00 -1.00 -0.02 0.01
1.97E-01 | 0.14 0.00 0.01 -0.80 -0.58
3.12E-01 | -0.97 -0.07 0.02 0.01 -0.24
1.20E+00 | 0.20 0.09 -0.02 0.59 -0.77
6.74E+01 | -0.08 0.99 0.00 -0.05 0.05
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 111.126 +/- 0.907347 1
2 2 1 gaussian Sigma keV 19.3655 +/- 8.16021 1
3 3 1 gaussian norm 1.77582 +/- 0.498259E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 111.009 +/- 0.841702 2
7 7 3 gaussian Sigma keV 18.2478 +/- 0.996677 2
8 3 3 gaussian norm 1.77582 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 358.9900 using 198 PHA bins.
Reduced chi-squared = 1.889421 for 190 degrees of freedom
Null hypothesis probability = 1.613E-12
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 110.312 112.064 ( -0.814056 , 0.937981 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 110.160 111.792 ( -0.849625 , 0.783173 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.273 photons ( 2.4538E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.291 photons ( 2.4682E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:32 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 4.035 +/- 3.7559E-02
Net count rate (cts/s) for file 2 4.035 +/- 3.7559E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 11509.15 using 168 PHA bins.
Reduced chi-squared = 71.93219 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1605.336 using 168 PHA bins.
Reduced chi-squared = 10.03335 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
410.824 -3 86.81 14.85 0.2045 0.8262
0.5962 85.99 14.04 0.8240
239.128 -4 69.63 18.55 0.3308 0.7969
0.4314 71.38 17.38 0.8010
230.960 0 71.90 9.408 0.3366 0.7956
0.4332 74.37 15.02 0.7990
183.979 -1 72.14 9.997 0.2499 0.7854
0.4466 76.55 9.912 0.7883
181.746 -2 72.43 9.960 0.2277 0.7713
0.4285 76.28 11.29 0.7739
179.249 -3 72.24 9.848 0.2227 0.7391
0.3728 76.03 9.961 0.7423
178.922 0 72.22 9.825 0.2243 0.7389
0.3734 76.03 10.17 0.7416
178.875 -1 72.19 9.847 0.2261 0.7389
0.3730 76.01 10.16 0.7410
178.846 -2 72.17 9.868 0.2268 0.7366
0.3693 75.99 10.19 0.7388
178.805 -3 72.13 9.882 0.2271 0.7304
0.3597 75.95 10.20 0.7328
178.800 -4 72.11 9.882 0.2272 0.7284
0.3564 75.93 10.20 0.7305
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.80E-06 | 0.00 0.00 -0.16 0.53 -0.68 0.00 0.00 0.49
1.69E-05 | 0.00 0.00 -0.01 -0.69 -0.01 0.00 0.00 0.73
2.28E-04 | 0.00 0.01 -0.99 -0.08 0.11 0.00 0.05 -0.08
5.79E-03 | 0.02 0.00 0.00 -0.49 -0.73 0.02 -0.01 -0.47
3.49E-02 | -0.01 0.07 -0.05 0.00 0.01 -0.02 -1.00 0.00
1.33E+00 | -0.56 0.54 0.01 -0.01 -0.02 -0.62 0.05 -0.01
9.26E-01 | -0.70 -0.71 -0.01 -0.01 -0.01 0.00 -0.05 -0.01
1.02E+00 | 0.45 -0.43 0.00 0.00 0.00 -0.78 -0.02 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 72.1117 +/- 1.03325 1
2 2 1 gaussian Sigma keV 9.88228 +/- 1.02794 1
3 3 1 gaussian norm 0.227162 +/- 0.219151E-01 1
4 4 2 powerlaw PhoIndex 0.728355 +/- 0.409512E-01 1
5 5 2 powerlaw norm 0.356374 +/- 0.610183E-01 1
6 6 3 gaussian LineE keV 75.9273 +/- 1.06584 2
7 7 3 gaussian Sigma keV 10.2005 +/- 0.202199 2
8 3 3 gaussian norm 0.227162 = par 3 2
9 8 4 powerlaw PhoIndex 0.730540 +/- 0.393058E-01 2
10 5 4 powerlaw norm 0.356374 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 178.8000 using 168 PHA bins.
Reduced chi-squared = 1.117500 for 160 degrees of freedom
Null hypothesis probability = 0.147
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 70.4984 73.7232 ( -1.61332 , 1.61141 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 74.2481 77.5855 ( -1.67917 , 1.65825 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.508 photons ( 1.8249E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.496 photons ( 1.8239E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
6.163342
=====best line=====
72.1159 1.03795
=====best sigma=====
9.88469 1.03282
=====norm=====
0.227187 0.219697E-01
=====phoindx=====
0.728406 0.410000E-01
=====pow_norm=====
0.356320 0.605542E-01
=====best line=====
75.9267 1.06613
=====best sigma=====
10.2004 0.200950
=====norm=====
0.227187 par
=====phoindx=====
0.730498 0.393508E-01
=====pow_norm=====
0.356320 par
=====redu_chi=====
1.117497
=====slow error=====
-1.61741 1.60812
=====fast error=====
-1.67883 1.65831
=====area_flux=====
1.507
=====area_flux_f=====
1.496
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
25.80424 26.69712
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 11 1 640 2000 1153.8544 25.80424 0.227187 0.219697E-01 9.88469 1.03282 0.728406 0.410000E-01 0.356320 0.605542E-01 1.507 640 2000 1214.8272 26.69712 0.227187 0.219697E-01 10.2004 0.200950 0.730498 0.393508E-01 0.356320 0.605542E-01 1.496 1.117497 0
=====redu_chi=====
20.30451
=====best line=====
111.126 0.907347
=====best sigma=====
19.3655 8.16021
=====norm=====
1.77582 0.498259E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.009 0.841702
=====best sigma=====
18.2478 0.996677
=====norm=====
1.77582 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
1.889421
=====slow error=====
-0.814056 0.937981
=====fast error=====
-0.849625 0.783173
=====area_flux=====
1.273
=====area_flux_f=====
1.291
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
14.016296 13.062384
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 11 1 1600 3200 1778.016 14.016296 1.77582 0.498259E-01 309.848 130.56336 9.50000 -1.00000 0.00000 -1.00000 1.273 1600 3200 1776.144 13.062384 1.77582 0.498259E-01 291.9648 15.946832 9.50000 -1.00000 0.00000 -1.00000 1.291 1.889421 0
=====redu_chi=====
10.03335
=====best line=====
72.1117 1.03325
=====best sigma=====
9.88228 1.02794
=====norm=====
0.227162 0.219151E-01
=====phoindx=====
0.728355 0.409512E-01
=====pow_norm=====
0.356374 0.610183E-01
=====best line=====
75.9273 1.06584
=====best sigma=====
10.2005 0.202199
=====norm=====
0.227162 par
=====phoindx=====
0.730540 0.393058E-01
=====pow_norm=====
0.356374 par
=====redu_chi=====
1.117500
=====slow error=====
-1.61332 1.61141
=====fast error=====
-1.67917 1.65825
=====area_flux=====
1.508
=====area_flux_f=====
1.496
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
25.79784 26.69936
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 11 1 640 2000 1153.7872 25.79784 0.227162 0.219151E-01 9.88228 1.02794 0.728355 0.409512E-01 0.356374 0.610183E-01 1.508 640 2000 1214.8368 26.69936 0.227162 0.219151E-01 10.2005 0.202199 0.730540 0.393058E-01 0.356374 0.610183E-01 1.496 1.117500 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:32 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.568 +/- 3.5322E-02
Net count rate (cts/s) for file 2 3.568 +/- 3.5322E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 9579.777 using 168 PHA bins.
Reduced chi-squared = 59.87361 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 680.0877 using 168 PHA bins.
Reduced chi-squared = 4.250548 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
281.081 -3 84.03 14.79 0.2797 0.9644
0.7605 85.15 14.12 0.9637
208.865 -4 80.67 9.292 0.2173 0.9221
0.7534 82.80 9.662 0.9267
206.609 0 80.84 9.315 0.2233 0.9235
0.7496 82.69 10.000 0.9280
204.812 -1 80.90 9.840 0.2436 0.9268
0.7453 82.53 11.33 0.9315
203.547 -2 80.96 10.000 0.2510 0.9378
0.7737 82.79 10.78 0.9420
203.227 -3 81.08 10.31 0.2587 0.9691
0.8698 82.80 11.13 0.9726
202.630 -4 81.18 10.21 0.2604 0.9827
0.9272 82.94 11.13 0.9868
202.552 -5 81.16 10.26 0.2614 0.9834
0.9334 82.94 11.17 0.9881
202.551 -6 81.17 10.24 0.2612 0.9834
0.9336 82.95 11.16 0.9881
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.70E-05 | 0.00 0.00 -0.23 0.70 -0.33 0.00 0.00 0.59
2.03E-05 | 0.00 0.00 -0.02 -0.65 -0.02 0.00 0.00 0.76
2.10E-04 | 0.00 0.06 -0.97 -0.14 0.10 0.00 0.06 -0.15
1.56E-02 | 0.01 0.75 0.01 0.00 -0.04 0.00 -0.66 -0.01
2.34E-02 | -0.04 -0.42 -0.03 0.18 0.70 -0.04 -0.52 0.17
4.61E-02 | 0.02 -0.51 -0.08 -0.18 -0.62 0.02 -0.54 -0.17
7.26E-01 | -0.96 0.01 0.00 -0.01 -0.03 0.27 0.00 -0.01
9.48E-01 | 0.27 -0.01 0.00 0.01 0.05 0.96 -0.01 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 81.1701 +/- 0.860892 1
2 2 1 gaussian Sigma keV 10.2402 +/- 0.157942 1
3 3 1 gaussian norm 0.261204 +/- 0.224614E-01 1
4 4 2 powerlaw PhoIndex 0.983363 +/- 0.493049E-01 1
5 5 2 powerlaw norm 0.933591 +/- 0.180068 1
6 6 3 gaussian LineE keV 82.9503 +/- 0.964019 2
7 7 3 gaussian Sigma keV 11.1627 +/- 0.163352 2
8 3 3 gaussian norm 0.261204 = par 3 2
9 8 4 powerlaw PhoIndex 0.988068 +/- 0.474308E-01 2
10 5 4 powerlaw norm 0.933591 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 202.5514 using 168 PHA bins.
Reduced chi-squared = 1.265946 for 160 degrees of freedom
Null hypothesis probability = 1.281E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 79.7982 82.5311 ( -1.37186 , 1.36108 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 81.4235 84.4742 ( -1.52682 , 1.52395 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.391 photons ( 1.6826E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.369 photons ( 1.6628E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:33 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.411 +/- 5.4231E-02
Net count rate (cts/s) for file 2 8.411 +/- 5.4231E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.843 +/- 6.4719E-02( 57.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.843 +/- 6.4719E-02( 57.6% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 15884.00 using 198 PHA bins.
Reduced chi-squared = 83.59998 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3646.081 using 198 PHA bins.
Reduced chi-squared = 19.18990 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2974.68 -3 128.4 16.48 0.4868 3.628
4.009 128.5 15.52 3.553
2974.56 4 128.4 16.48 0.4868 3.402
5.525 128.5 15.52 3.434
2970.07 3 128.4 16.48 0.4869 2.875
16.91 128.5 15.52 2.968
2958.98 2 128.4 16.48 0.4876 2.762
27.04 128.5 15.52 2.836
2714.00 1 128.4 16.49 0.4953 2.381
80.22 128.5 15.54 2.438
2157.41 0 128.5 16.70 0.5587 2.257
130.1 128.4 15.76 2.326
1249.24 0 127.5 18.61 0.8661 2.189
182.1 127.1 17.85 2.272
993.998 -1 122.3 19.13 1.625 2.262
127.9 122.2 19.11 2.389
952.090 0 122.2 19.30 1.602 2.271
120.4 122.3 19.26 2.424
939.093 0 122.1 19.35 1.594 2.273
119.1 122.4 19.34 2.447
935.697 0 122.1 19.36 1.592 2.275
119.6 122.5 19.36 2.462
934.381 0 122.1 19.36 1.591 2.276
120.7 122.6 19.36 2.473
933.682 0 122.1 19.37 1.591 2.278
122.2 122.6 19.37 2.480
933.355 0 122.1 19.37 1.591 2.280
123.7 122.7 19.37 2.486
933.114 0 122.1 19.37 1.591 2.282
125.2 122.7 19.37 2.490
932.857 0 122.1 19.37 1.590 2.285
126.6 122.8 19.37 2.493
932.658 0 122.1 19.37 1.590 2.287
128.3 122.8 19.37 2.496
932.518 0 122.1 19.37 1.590 2.289
130.0 122.8 19.37 2.500
932.374 0 122.1 19.37 1.590 2.291
131.7 122.8 19.37 2.503
932.310 0 122.1 19.37 1.590 2.293
133.4 122.8 19.37 2.506
932.083 0 122.1 19.37 1.589 2.296
135.0 122.8 19.37 2.509
932.041 0 122.1 19.37 1.589 2.298
136.6 122.8 19.37 2.511
931.849 0 122.1 19.37 1.589 2.301
138.3 122.8 19.37 2.514
931.790 0 122.1 19.37 1.589 2.303
140.0 122.8 19.37 2.516
931.700 0 122.1 19.37 1.589 2.306
141.7 122.9 19.37 2.519
931.603 0 122.1 19.37 1.589 2.308
143.4 122.9 19.37 2.521
931.538 0 122.1 19.37 1.589 2.310
145.4 122.9 19.37 2.523
931.512 0 122.1 19.37 1.589 2.312
147.6 122.9 19.37 2.525
931.432 0 122.1 19.37 1.588 2.315
149.3 122.9 19.37 2.527
931.317 0 122.1 19.37 1.588 2.317
151.1 122.9 19.37 2.530
931.147 0 122.1 19.37 1.588 2.320
152.9 122.9 19.37 2.532
931.076 0 122.1 19.37 1.588 2.322
154.8 122.9 19.37 2.534
930.896 0 122.1 19.37 1.588 2.325
156.6 122.9 19.37 2.536
930.778 0 122.1 19.37 1.587 2.327
158.6 122.9 19.37 2.538
925.057 0 122.2 19.37 1.577 2.328
158.1 122.9 19.37 2.537
920.065 0 122.2 19.37 1.568 2.329
158.0 123.0 19.37 2.534
915.650 0 122.3 19.37 1.560 2.329
158.3 123.1 19.37 2.532
911.699 0 122.4 19.37 1.552 2.330
158.7 123.1 19.37 2.529
908.139 0 122.5 19.37 1.545 2.329
159.3 123.2 19.37 2.525
904.905 0 122.6 19.37 1.538 2.329
160.0 123.3 19.37 2.522
901.957 0 122.6 19.37 1.531 2.329
160.9 123.3 19.37 2.519
899.261 0 122.7 19.37 1.526 2.328
161.8 123.4 19.37 2.516
896.783 0 122.8 19.37 1.520 2.328
162.7 123.5 19.37 2.512
894.503 0 122.9 19.37 1.515 2.328
163.7 123.5 19.37 2.509
892.403 0 122.9 19.37 1.510 2.327
164.7 123.6 19.37 2.507
890.467 0 123.0 19.37 1.505 2.327
165.6 123.6 19.37 2.504
888.678 0 123.1 19.37 1.500 2.326
166.6 123.7 19.37 2.501
887.023 0 123.2 19.37 1.496 2.326
167.5 123.8 19.37 2.499
885.492 0 123.2 19.37 1.492 2.325
168.4 123.8 19.37 2.496
884.073 0 123.3 19.37 1.488 2.325
169.4 123.9 19.37 2.494
882.757 0 123.4 19.37 1.485 2.325
170.3 123.9 19.37 2.492
881.539 0 123.4 19.37 1.481 2.324
171.1 123.9 19.37 2.490
880.408 0 123.5 19.37 1.478 2.324
172.0 124.0 19.37 2.488
879.358 0 123.5 19.37 1.475 2.324
172.8 124.0 19.37 2.487
878.383 0 123.6 19.37 1.472 2.324
173.6 124.1 19.37 2.485
877.478 0 123.6 19.37 1.469 2.323
174.3 124.1 19.37 2.484
876.636 0 123.7 19.37 1.467 2.323
175.1 124.2 19.37 2.482
875.851 0 123.8 19.37 1.464 2.323
175.8 124.2 19.37 2.481
875.122 0 123.8 19.37 1.462 2.323
176.5 124.2 19.37 2.480
874.442 0 123.9 19.37 1.459 2.323
177.2 124.3 19.37 2.479
873.812 0 123.9 19.37 1.457 2.323
177.8 124.3 19.37 2.478
873.220 0 123.9 19.37 1.455 2.323
178.5 124.3 19.37 2.477
872.670 0 124.0 19.37 1.453 2.323
179.1 124.4 19.37 2.476
872.156 0 124.0 19.37 1.451 2.323
179.7 124.4 19.37 2.475
871.677 0 124.1 19.37 1.449 2.323
180.3 124.4 19.37 2.474
871.229 0 124.1 19.37 1.447 2.323
180.9 124.4 19.37 2.473
870.810 0 124.2 19.37 1.446 2.323
181.5 124.5 19.37 2.473
870.418 0 124.2 19.37 1.444 2.323
182.0 124.5 19.37 2.472
870.052 0 124.2 19.37 1.443 2.323
182.6 124.5 19.37 2.472
869.709 0 124.3 19.37 1.441 2.323
183.1 124.5 19.37 2.471
869.388 0 124.3 19.37 1.440 2.323
183.6 124.6 19.37 2.471
869.087 0 124.3 19.37 1.439 2.323
184.1 124.6 19.37 2.470
868.805 0 124.4 19.37 1.437 2.323
184.6 124.6 19.37 2.470
868.541 0 124.4 19.37 1.436 2.323
185.1 124.6 19.37 2.469
868.291 0 124.4 19.37 1.435 2.324
185.5 124.6 19.37 2.469
868.056 0 124.4 19.37 1.434 2.324
186.0 124.6 19.37 2.469
867.834 0 124.5 19.37 1.433 2.324
186.5 124.7 19.37 2.468
867.627 0 124.5 19.37 1.432 2.324
186.9 124.7 19.37 2.468
867.434 0 124.5 19.37 1.431 2.324
187.4 124.7 19.37 2.468
867.249 0 124.5 19.37 1.430 2.324
187.8 124.7 19.37 2.468
867.077 0 124.6 19.37 1.429 2.324
188.2 124.7 19.37 2.468
866.912 0 124.6 19.37 1.428 2.325
188.7 124.7 19.37 2.467
866.759 0 124.6 19.37 1.427 2.325
189.1 124.7 19.37 2.467
866.612 0 124.6 19.37 1.427 2.325
189.5 124.8 19.37 2.467
866.474 0 124.7 19.37 1.426 2.325
189.9 124.8 19.37 2.467
866.346 0 124.7 19.37 1.425 2.325
190.3 124.8 19.37 2.467
866.222 0 124.7 19.37 1.425 2.326
190.7 124.8 19.37 2.467
866.105 0 124.7 19.37 1.424 2.326
191.1 124.8 19.37 2.467
865.994 0 124.7 19.37 1.423 2.326
191.5 124.8 19.37 2.467
865.889 0 124.8 19.37 1.423 2.326
191.9 124.8 19.37 2.467
865.789 0 124.8 19.37 1.422 2.327
192.3 124.8 19.37 2.467
865.694 0 124.8 19.37 1.422 2.327
192.7 124.8 19.37 2.467
865.605 0 124.8 19.37 1.421 2.327
193.0 124.8 19.37 2.467
865.518 0 124.8 19.37 1.421 2.327
193.4 124.9 19.37 2.467
865.438 0 124.8 19.37 1.420 2.327
193.8 124.9 19.37 2.467
865.359 0 124.8 19.37 1.420 2.328
194.2 124.9 19.37 2.467
865.285 0 124.9 19.37 1.419 2.328
194.5 124.9 19.37 2.467
865.214 0 124.9 19.37 1.419 2.328
194.9 124.9 19.37 2.467
865.147 0 124.9 19.37 1.418 2.328
195.3 124.9 19.37 2.467
865.082 0 124.9 19.37 1.418 2.329
195.6 124.9 19.37 2.467
865.020 0 124.9 19.37 1.418 2.329
196.0 124.9 19.37 2.467
864.961 0 124.9 19.37 1.417 2.329
196.3 124.9 19.37 2.468
864.905 0 124.9 19.37 1.417 2.329
196.7 124.9 19.37 2.468
864.851 0 124.9 19.37 1.417 2.330
197.0 124.9 19.37 2.468
864.799 0 124.9 19.37 1.416 2.330
197.4 124.9 19.37 2.468
864.749 0 125.0 19.37 1.416 2.330
197.7 124.9 19.37 2.468
864.700 0 125.0 19.37 1.416 2.331
198.1 124.9 19.37 2.468
864.655 0 125.0 19.37 1.415 2.331
198.4 124.9 19.37 2.468
864.611 0 125.0 19.37 1.415 2.331
198.8 124.9 19.37 2.469
864.568 0 125.0 19.37 1.415 2.331
199.1 124.9 19.37 2.469
864.525 0 125.0 19.37 1.415 2.332
199.5 124.9 19.37 2.469
864.486 0 125.0 19.37 1.414 2.332
199.8 125.0 19.37 2.469
864.449 0 125.0 19.37 1.414 2.332
200.1 125.0 19.37 2.469
864.411 0 125.0 19.37 1.414 2.332
200.5 125.0 19.37 2.469
864.375 0 125.0 19.37 1.414 2.333
200.8 125.0 19.37 2.470
864.340 0 125.0 19.37 1.414 2.333
201.1 125.0 19.37 2.470
864.308 0 125.0 19.37 1.413 2.333
201.5 125.0 19.37 2.470
864.277 0 125.0 19.37 1.413 2.334
201.8 125.0 19.37 2.470
864.245 0 125.1 19.37 1.413 2.334
202.1 125.0 19.37 2.470
864.214 0 125.1 19.37 1.413 2.334
202.5 125.0 19.37 2.471
864.186 0 125.1 19.37 1.413 2.334
202.8 125.0 19.37 2.471
864.156 0 125.1 19.37 1.413 2.335
203.2 125.0 19.37 2.471
864.128 0 125.1 19.37 1.412 2.335
203.5 125.0 19.37 2.471
864.101 0 125.1 19.37 1.412 2.335
203.8 125.0 19.37 2.471
864.074 0 125.1 19.37 1.412 2.335
204.2 125.0 19.37 2.472
864.048 0 125.1 19.37 1.412 2.336
204.5 125.0 19.37 2.472
864.024 0 125.1 19.37 1.412 2.336
204.8 125.0 19.37 2.472
864.000 0 125.1 19.37 1.412 2.336
205.2 125.0 19.37 2.472
863.976 0 125.1 19.37 1.412 2.337
205.5 125.0 19.37 2.473
863.952 0 125.1 19.37 1.411 2.337
205.9 125.0 19.37 2.473
863.929 0 125.1 19.37 1.411 2.337
206.2 125.0 19.37 2.473
863.906 0 125.1 19.37 1.411 2.337
206.6 125.0 19.37 2.473
863.884 0 125.1 19.37 1.411 2.338
206.9 125.0 19.37 2.473
863.864 0 125.1 19.37 1.411 2.338
207.2 125.0 19.37 2.474
863.843 0 125.1 19.37 1.411 2.338
207.6 125.0 19.37 2.474
863.822 0 125.1 19.37 1.411 2.339
207.9 125.0 19.37 2.474
863.802 0 125.1 19.37 1.411 2.339
208.2 125.0 19.37 2.474
863.782 0 125.1 19.37 1.411 2.339
208.5 125.0 19.37 2.475
863.763 0 125.1 19.37 1.411 2.339
208.9 125.0 19.37 2.475
863.744 0 125.1 19.37 1.410 2.340
209.2 125.0 19.37 2.475
863.725 0 125.1 19.37 1.410 2.340
209.5 125.0 19.37 2.475
863.707 0 125.1 19.37 1.410 2.340
209.9 125.0 19.37 2.476
863.689 0 125.1 19.37 1.410 2.341
210.2 125.0 19.37 2.476
863.672 0 125.2 19.37 1.410 2.341
210.6 125.0 19.37 2.476
863.653 0 125.2 19.37 1.410 2.341
210.9 125.0 19.37 2.476
863.635 0 125.2 19.37 1.410 2.342
211.2 125.0 19.37 2.477
863.620 0 125.2 19.37 1.410 2.342
211.6 125.0 19.37 2.477
863.602 0 125.2 19.37 1.410 2.342
211.9 125.0 19.37 2.477
863.586 0 125.2 19.37 1.410 2.342
212.3 125.0 19.37 2.477
863.570 0 125.2 19.37 1.410 2.343
212.6 125.0 19.37 2.478
863.554 0 125.2 19.37 1.410 2.343
212.9 125.0 19.37 2.478
863.539 0 125.2 19.37 1.410 2.343
213.3 125.0 19.37 2.478
863.523 0 125.2 19.37 1.410 2.344
213.6 125.0 19.37 2.478
863.508 0 125.2 19.37 1.409 2.344
213.9 125.0 19.37 2.479
863.493 0 125.2 19.37 1.409 2.344
214.3 125.0 19.37 2.479
863.477 0 125.2 19.37 1.409 2.344
214.6 125.0 19.37 2.479
863.461 0 125.2 19.37 1.409 2.345
215.0 125.0 19.37 2.480
863.446 0 125.2 19.37 1.409 2.345
215.3 125.0 19.37 2.480
863.431 0 125.2 19.37 1.409 2.345
215.7 125.0 19.37 2.480
863.415 0 125.2 19.37 1.409 2.346
216.0 125.0 19.37 2.480
863.400 0 125.2 19.37 1.409 2.346
216.4 125.0 19.37 2.481
863.385 0 125.2 19.37 1.409 2.346
216.7 125.0 19.37 2.481
863.372 0 125.2 19.37 1.409 2.346
217.0 125.0 19.37 2.481
863.357 0 125.2 19.37 1.409 2.347
217.4 125.0 19.37 2.481
863.342 0 125.2 19.37 1.409 2.347
217.7 125.0 19.37 2.482
863.329 0 125.2 19.37 1.409 2.347
218.1 125.0 19.37 2.482
863.315 0 125.2 19.37 1.409 2.348
218.4 125.0 19.37 2.482
863.301 0 125.2 19.37 1.409 2.348
218.8 125.0 19.37 2.482
863.287 0 125.2 19.37 1.409 2.348
219.1 125.0 19.37 2.483
863.273 0 125.2 19.37 1.409 2.348
219.5 125.0 19.37 2.483
863.260 0 125.2 19.37 1.409 2.349
219.8 125.0 19.37 2.483
863.244 0 125.2 19.37 1.409 2.349
220.2 125.0 19.37 2.484
863.232 0 125.2 19.37 1.409 2.349
220.5 125.0 19.37 2.484
863.217 0 125.2 19.37 1.409 2.350
220.9 125.0 19.37 2.484
863.204 0 125.2 19.37 1.408 2.350
221.2 125.0 19.37 2.484
863.191 0 125.2 19.37 1.408 2.350
221.6 125.0 19.37 2.485
863.177 0 125.2 19.37 1.408 2.351
221.9 125.0 19.37 2.485
863.164 0 125.2 19.37 1.408 2.351
222.3 125.0 19.37 2.485
863.151 0 125.2 19.37 1.408 2.351
222.7 125.0 19.37 2.486
863.137 0 125.2 19.37 1.408 2.351
223.0 125.0 19.37 2.486
863.124 0 125.2 19.37 1.408 2.352
223.4 125.0 19.37 2.486
863.111 0 125.2 19.37 1.408 2.352
223.7 125.0 19.37 2.486
863.098 0 125.2 19.37 1.408 2.352
224.1 125.0 19.37 2.487
863.086 0 125.2 19.37 1.408 2.353
224.4 125.0 19.37 2.487
863.071 0 125.2 19.37 1.408 2.353
224.8 125.0 19.37 2.487
863.060 0 125.2 19.37 1.408 2.353
225.1 125.0 19.37 2.487
863.046 0 125.2 19.37 1.408 2.354
225.5 125.0 19.37 2.488
863.034 0 125.2 19.37 1.408 2.354
225.8 125.0 19.37 2.488
863.022 0 125.2 19.37 1.408 2.354
226.2 125.0 19.37 2.488
863.010 0 125.2 19.37 1.408 2.354
226.6 125.0 19.37 2.489
862.996 0 125.2 19.37 1.408 2.355
226.9 125.0 19.37 2.489
862.982 0 125.2 19.37 1.408 2.355
227.3 125.0 19.37 2.489
862.971 0 125.2 19.37 1.408 2.355
227.7 125.0 19.37 2.489
862.958 0 125.2 19.37 1.408 2.356
228.0 125.0 19.37 2.490
862.945 0 125.2 19.37 1.408 2.356
228.4 125.0 19.37 2.490
862.932 0 125.2 19.37 1.408 2.356
228.8 125.0 19.37 2.490
862.921 0 125.2 19.37 1.408 2.356
229.1 125.0 19.37 2.490
862.906 0 125.2 19.37 1.408 2.357
229.5 125.0 19.37 2.491
862.894 0 125.2 19.37 1.408 2.357
229.8 125.0 19.37 2.491
862.882 0 125.2 19.37 1.408 2.357
230.2 125.0 19.37 2.491
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.52E-04 | -0.01 0.00 -0.70 0.70 0.00 0.00 0.00 0.14
7.45E-04 | 0.00 0.00 -0.60 -0.69 0.00 -0.01 0.00 0.41
1.93E-03 | 0.00 0.00 -0.38 -0.20 0.00 0.01 0.00 -0.90
4.21E-01 | 0.94 0.02 -0.01 0.00 0.00 0.35 0.01 0.00
4.07E-01 | 0.35 0.00 0.00 0.00 0.00 -0.94 -0.02 -0.01
6.61E+01 | 0.01 -0.71 0.00 0.00 0.00 -0.01 0.71 0.00
1.74E+02 | -0.02 0.71 0.00 0.00 0.01 -0.02 0.71 0.00
2.37E+06 | 0.00 0.01 0.00 0.00 -1.00 0.00 0.01 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 125.217 +/- 1.28746 1
2 2 1 gaussian Sigma keV 19.3655 +/- 14.5380 1
3 3 1 gaussian norm 1.40763 +/- 0.118769 1
4 4 2 powerlaw PhoIndex 2.35735 +/- 1.34831 1
5 5 2 powerlaw norm 230.209 +/- 1540.18 1
6 6 3 gaussian LineE keV 125.038 +/- 1.11834 2
7 7 3 gaussian Sigma keV 19.3655 +/- 17.3456 2
8 3 3 gaussian norm 1.40763 = par 3 2
9 8 4 powerlaw PhoIndex 2.49133 +/- 1.24729 2
10 5 4 powerlaw norm 230.209 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 862.8815 using 198 PHA bins.
Reduced chi-squared = 4.541482 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.380) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.380) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.470 photons ( 3.0585E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.372 photons ( 2.8421E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:34 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.568 +/- 3.5322E-02
Net count rate (cts/s) for file 2 3.568 +/- 3.5322E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 11363.42 using 168 PHA bins.
Reduced chi-squared = 71.02139 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1044.156 using 168 PHA bins.
Reduced chi-squared = 6.525977 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
569.004 -3 86.07 13.55 0.2709 1.058
0.9335 86.96 13.12 1.054
222.458 -4 80.29 12.42 0.2791 0.9705
0.9119 82.53 12.51 0.9774
205.149 -5 81.87 9.861 0.2421 0.9834
0.9471 83.42 10.15 0.9876
203.518 0 81.54 9.897 0.2454 0.9835
0.9462 83.16 10.65 0.9878
203.084 0 81.37 9.936 0.2486 0.9837
0.9449 83.05 10.78 0.9882
202.875 0 81.28 9.977 0.2512 0.9839
0.9438 83.00 10.87 0.9884
202.670 -1 81.16 10.40 0.2589 0.9845
0.9402 82.92 11.12 0.9892
202.553 -2 81.20 10.24 0.2613 0.9845
0.9381 82.95 11.17 0.9892
202.551 -3 81.17 10.25 0.2614 0.9838
0.9351 82.95 11.17 0.9885
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.70E-05 | 0.00 0.00 -0.23 0.70 -0.33 0.00 0.00 0.59
2.03E-05 | 0.00 0.00 -0.02 -0.65 -0.02 0.00 0.00 0.76
2.10E-04 | 0.00 0.06 -0.97 -0.14 0.10 0.00 0.06 -0.15
1.60E-02 | 0.01 0.73 0.00 0.00 -0.02 0.00 -0.68 -0.01
2.37E-02 | -0.04 -0.44 -0.03 0.18 0.70 -0.04 -0.50 0.17
4.68E-02 | 0.02 -0.52 -0.08 -0.18 -0.62 0.02 -0.53 -0.17
7.24E-01 | -0.96 0.01 0.00 -0.01 -0.03 0.27 0.00 -0.01
9.47E-01 | 0.27 -0.01 0.00 0.01 0.05 0.96 -0.01 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 81.1688 +/- 0.859200 1
2 2 1 gaussian Sigma keV 10.2519 +/- 0.161064 1
3 3 1 gaussian norm 0.261408 +/- 0.224471E-01 1
4 4 2 powerlaw PhoIndex 0.983761 +/- 0.493120E-01 1
5 5 2 powerlaw norm 0.935134 +/- 0.180984 1
6 6 3 gaussian LineE keV 82.9499 +/- 0.963497 2
7 7 3 gaussian Sigma keV 11.1699 +/- 0.163203 2
8 3 3 gaussian norm 0.261408 = par 3 2
9 8 4 powerlaw PhoIndex 0.988499 +/- 0.474385E-01 2
10 5 4 powerlaw norm 0.935134 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 202.5514 using 168 PHA bins.
Reduced chi-squared = 1.265946 for 160 degrees of freedom
Null hypothesis probability = 1.281E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 79.7997 82.5332 ( -1.36909 , 1.36439 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 81.4260 84.4765 ( -1.52396 , 1.52654 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.391 photons ( 1.6828E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.369 photons ( 1.6627E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
4.250548
=====best line=====
81.1701 0.860892
=====best sigma=====
10.2402 0.157942
=====norm=====
0.261204 0.224614E-01
=====phoindx=====
0.983363 0.493049E-01
=====pow_norm=====
0.933591 0.180068
=====best line=====
82.9503 0.964019
=====best sigma=====
11.1627 0.163352
=====norm=====
0.261204 par
=====phoindx=====
0.988068 0.474308E-01
=====pow_norm=====
0.933591 par
=====redu_chi=====
1.265946
=====slow error=====
-1.37186 1.36108
=====fast error=====
-1.52682 1.52395
=====area_flux=====
1.391
=====area_flux_f=====
1.369
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
21.86352 24.40616
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 12 1 640 2000 1298.7216 21.86352 0.261204 0.224614E-01 10.2402 0.157942 0.983363 0.493049E-01 0.933591 0.180068 1.391 640 2000 1327.2048 24.40616 0.261204 0.224614E-01 11.1627 0.163352 0.988068 0.474308E-01 0.933591 0.180068 1.369 1.265946 0
=====redu_chi=====
19.18990
=====best line=====
125.217 1.28746
=====best sigma=====
19.3655 14.5380
=====norm=====
1.40763 0.118769
=====phoindx=====
2.35735 1.34831
=====pow_norm=====
230.209 1540.18
=====best line=====
125.038 1.11834
=====best sigma=====
19.3655 17.3456
=====norm=====
1.40763 par
=====phoindx=====
2.49133 1.24729
=====pow_norm=====
230.209 par
=====redu_chi=====
4.541482
=====area_flux=====
1.470
=====area_flux_f=====
1.372
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
21.86352 24.40616
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 12 1 1600 3200 2003.472 21.86352 1.40763 0.118769 309.848 232.608 2.35735 1.34831 230.209 1540.18 1.470 1600 3200 2000.608 24.40616 1.40763 0.118769 309.848 277.5296 2.49133 1.24729 230.209 1540.18 1.372 4.541482 1
=====redu_chi=====
6.525977
=====best line=====
81.1688 0.859200
=====best sigma=====
10.2519 0.161064
=====norm=====
0.261408 0.224471E-01
=====phoindx=====
0.983761 0.493120E-01
=====pow_norm=====
0.935134 0.180984
=====best line=====
82.9499 0.963497
=====best sigma=====
11.1699 0.163203
=====norm=====
0.261408 par
=====phoindx=====
0.988499 0.474385E-01
=====pow_norm=====
0.935134 par
=====redu_chi=====
1.265946
=====slow error=====
-1.36909 1.36439
=====fast error=====
-1.52396 1.52654
=====area_flux=====
1.391
=====area_flux_f=====
1.369
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
21.86784 24.404
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 12 1 640 2000 1298.7008 21.86784 0.261408 0.224471E-01 10.2519 0.161064 0.983761 0.493120E-01 0.935134 0.180984 1.391 640 2000 1327.1984 24.404 0.261408 0.224471E-01 11.1699 0.163203 0.988499 0.474385E-01 0.935134 0.180984 1.369 1.265946 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:34 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.565 +/- 3.5304E-02
Net count rate (cts/s) for file 2 3.565 +/- 3.5304E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 7633.155 using 168 PHA bins.
Reduced chi-squared = 47.70722 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 503.7842 using 168 PHA bins.
Reduced chi-squared = 3.148652 for 160 degrees of freedom
Null hypothesis probability = 3.245E-37
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
225.331 -3 87.24 12.38 0.2129 0.8245
0.5466 87.99 12.16 0.8217
186.133 -4 84.69 10.08 0.2190 0.8554
0.5868 86.32 10.32 0.8533
185.673 -5 84.98 10.76 0.2275 0.8705
0.6219 86.55 10.92 0.8687
185.539 -6 85.12 10.50 0.2273 0.8720
0.6283 86.62 10.88 0.8707
185.534 -7 85.07 10.58 0.2284 0.8728
0.6301 86.62 10.92 0.8716
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.33E-05 | 0.00 0.00 -0.20 0.61 -0.46 0.00 0.00 0.60
1.79E-05 | 0.00 0.00 0.00 -0.70 0.01 0.00 0.00 0.71
2.06E-04 | 0.00 0.06 -0.97 -0.11 0.14 0.00 0.05 -0.11
1.36E-02 | 0.03 0.32 -0.02 -0.32 -0.81 0.03 0.21 -0.31
1.88E-02 | 0.00 -0.71 -0.01 -0.03 -0.08 0.01 0.70 -0.03
5.50E-02 | 0.01 -0.63 -0.09 -0.14 -0.31 0.01 -0.68 -0.13
1.18E+00 | 0.44 0.00 0.00 0.01 0.03 0.90 0.00 0.01
1.01E+00 | -0.90 0.00 0.00 0.00 -0.01 0.44 0.00 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 85.0682 +/- 1.02237 1
2 2 1 gaussian Sigma keV 10.5753 +/- 0.179998 1
3 3 1 gaussian norm 0.228441 +/- 0.247683E-01 1
4 4 2 powerlaw PhoIndex 0.872800 +/- 0.518448E-01 1
5 5 2 powerlaw norm 0.630073 +/- 0.126134 1
6 6 3 gaussian LineE keV 86.6151 +/- 1.06949 2
7 7 3 gaussian Sigma keV 10.9249 +/- 0.188069 2
8 3 3 gaussian norm 0.228441 = par 3 2
9 8 4 powerlaw PhoIndex 0.871565 +/- 0.498149E-01 2
10 5 4 powerlaw norm 0.630073 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 185.5336 using 168 PHA bins.
Reduced chi-squared = 1.159585 for 160 degrees of freedom
Null hypothesis probability = 8.157E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 83.4410 86.7227 ( -1.62723 , 1.65452 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 84.9084 88.3219 ( -1.70664 , 1.70678 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.450 photons ( 1.7796E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.456 photons ( 1.7931E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:34 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.005 +/- 5.2904E-02
Net count rate (cts/s) for file 2 8.005 +/- 5.2904E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.440 +/- 6.3602E-02( 55.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.440 +/- 6.3602E-02( 55.5% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12976.74 using 198 PHA bins.
Reduced chi-squared = 68.29865 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 2988.510 using 198 PHA bins.
Reduced chi-squared = 15.72900 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2157.74 -2 128.5 12.49 0.4964 1.228
0.8049 128.5 11.74 1.280
1245.09 -3 123.0 18.16 1.133 2.838
7.308 123.6 17.70 2.861
1242.95 2 123.0 18.16 1.133 2.722
10.96 123.6 17.70 2.774
1185.72 1 123.1 18.21 1.135 2.302
32.37 123.6 17.74 2.414
1055.87 0 123.3 18.59 1.151 2.180
53.02 123.8 18.12 2.273
886.529 0 123.8 19.36 1.235 2.081
81.01 124.3 19.27 2.183
883.684 0 124.1 19.36 1.290 2.087
79.56 124.7 19.34 2.196
881.536 0 124.2 19.37 1.287 2.089
79.14 124.8 19.36 2.197
879.866 0 124.3 19.37 1.285 2.090
78.82 124.9 19.36 2.199
878.554 0 124.4 19.37 1.284 2.091
78.56 125.0 19.37 2.200
877.440 0 124.5 19.37 1.282 2.092
78.36 125.1 19.37 2.201
876.448 0 124.5 19.37 1.281 2.093
78.21 125.1 19.37 2.201
875.554 0 124.6 19.37 1.280 2.093
78.10 125.2 19.37 2.202
874.746 0 124.7 19.37 1.278 2.094
78.01 125.3 19.37 2.203
874.012 0 124.8 19.37 1.277 2.094
77.96 125.4 19.37 2.203
873.343 0 124.9 19.37 1.276 2.095
77.93 125.4 19.37 2.204
872.731 0 124.9 19.37 1.275 2.095
77.92 125.5 19.37 2.204
872.168 0 125.0 19.37 1.275 2.096
77.92 125.6 19.37 2.205
871.650 0 125.1 19.37 1.274 2.096
77.94 125.6 19.37 2.205
871.172 0 125.1 19.37 1.273 2.096
77.97 125.7 19.37 2.205
870.732 0 125.2 19.37 1.272 2.097
78.00 125.7 19.37 2.206
870.326 0 125.2 19.37 1.272 2.097
78.05 125.8 19.37 2.206
869.950 0 125.3 19.37 1.271 2.097
78.10 125.8 19.37 2.206
869.602 0 125.4 19.37 1.270 2.097
78.16 125.9 19.37 2.207
869.281 0 125.4 19.37 1.270 2.098
78.22 125.9 19.37 2.207
868.982 0 125.5 19.37 1.269 2.098
78.28 126.0 19.37 2.207
868.703 0 125.5 19.37 1.268 2.098
78.35 126.0 19.37 2.207
868.444 0 125.5 19.37 1.268 2.098
78.43 126.0 19.37 2.208
868.204 0 125.6 19.37 1.267 2.099
78.50 126.1 19.37 2.208
867.977 0 125.6 19.37 1.267 2.099
78.58 126.1 19.37 2.208
867.768 0 125.7 19.37 1.266 2.099
78.67 126.2 19.37 2.208
867.571 0 125.7 19.37 1.266 2.099
78.75 126.2 19.37 2.209
867.389 0 125.7 19.37 1.265 2.100
78.83 126.2 19.37 2.209
867.218 0 125.8 19.37 1.265 2.100
78.92 126.2 19.37 2.209
867.057 0 125.8 19.37 1.264 2.100
79.01 126.3 19.37 2.209
866.907 0 125.8 19.37 1.264 2.100
79.10 126.3 19.37 2.210
866.765 0 125.9 19.37 1.264 2.100
79.19 126.3 19.37 2.210
866.632 0 125.9 19.37 1.263 2.101
79.28 126.3 19.37 2.210
866.508 0 125.9 19.37 1.263 2.101
79.38 126.4 19.37 2.210
866.389 0 126.0 19.37 1.262 2.101
79.47 126.4 19.37 2.210
866.279 0 126.0 19.37 1.262 2.101
79.57 126.4 19.37 2.211
866.175 0 126.0 19.37 1.262 2.102
79.67 126.4 19.37 2.211
866.075 0 126.0 19.37 1.261 2.102
79.77 126.4 19.37 2.211
865.982 0 126.1 19.37 1.261 2.102
79.86 126.5 19.37 2.211
865.894 0 126.1 19.37 1.261 2.102
79.96 126.5 19.37 2.212
865.810 0 126.1 19.37 1.260 2.103
80.06 126.5 19.37 2.212
865.733 0 126.1 19.37 1.260 2.103
80.17 126.5 19.37 2.212
865.656 0 126.2 19.37 1.260 2.103
80.27 126.5 19.37 2.212
865.584 0 126.2 19.37 1.259 2.103
80.37 126.5 19.37 2.212
865.516 0 126.2 19.37 1.259 2.103
80.47 126.5 19.37 2.213
865.452 0 126.2 19.37 1.259 2.104
80.58 126.5 19.37 2.213
865.389 0 126.2 19.37 1.259 2.104
80.68 126.6 19.37 2.213
865.330 0 126.2 19.37 1.258 2.104
80.78 126.6 19.37 2.213
865.273 0 126.3 19.37 1.258 2.104
80.89 126.6 19.37 2.213
865.220 0 126.3 19.37 1.258 2.105
81.00 126.6 19.37 2.214
865.169 0 126.3 19.37 1.258 2.105
81.10 126.6 19.37 2.214
865.118 0 126.3 19.37 1.257 2.105
81.21 126.6 19.37 2.214
865.072 0 126.3 19.37 1.257 2.105
81.32 126.6 19.37 2.214
865.026 0 126.3 19.37 1.257 2.105
81.42 126.6 19.37 2.214
864.982 0 126.3 19.37 1.257 2.106
81.53 126.6 19.37 2.215
864.940 0 126.4 19.37 1.257 2.106
81.63 126.6 19.37 2.215
864.898 0 126.4 19.37 1.256 2.106
81.74 126.6 19.37 2.215
864.862 0 126.4 19.37 1.256 2.106
81.85 126.7 19.37 2.215
864.823 0 126.4 19.37 1.256 2.107
81.96 126.7 19.37 2.215
864.788 0 126.4 19.37 1.256 2.107
82.07 126.7 19.37 2.216
864.752 0 126.4 19.37 1.256 2.107
82.17 126.7 19.37 2.216
864.718 0 126.4 19.37 1.256 2.107
82.28 126.7 19.37 2.216
864.685 0 126.4 19.37 1.255 2.108
82.39 126.7 19.37 2.216
864.654 0 126.4 19.37 1.255 2.108
82.50 126.7 19.37 2.217
864.623 0 126.4 19.37 1.255 2.108
82.60 126.7 19.37 2.217
864.593 0 126.4 19.37 1.255 2.108
82.71 126.7 19.37 2.217
864.565 0 126.5 19.37 1.255 2.109
82.82 126.7 19.37 2.217
864.535 0 126.5 19.37 1.255 2.109
82.93 126.7 19.37 2.217
864.509 0 126.5 19.37 1.255 2.109
83.04 126.7 19.37 2.218
864.482 0 126.5 19.37 1.254 2.109
83.15 126.7 19.37 2.218
864.456 0 126.5 19.37 1.254 2.109
83.26 126.7 19.37 2.218
864.430 0 126.5 19.37 1.254 2.110
83.37 126.7 19.37 2.218
864.407 0 126.5 19.37 1.254 2.110
83.48 126.7 19.37 2.218
864.383 0 126.5 19.37 1.254 2.110
83.59 126.7 19.37 2.219
864.360 0 126.5 19.37 1.254 2.110
83.70 126.7 19.37 2.219
864.337 0 126.5 19.37 1.254 2.111
83.81 126.7 19.37 2.219
864.315 0 126.5 19.37 1.254 2.111
83.92 126.7 19.37 2.219
864.292 0 126.5 19.37 1.254 2.111
84.03 126.7 19.37 2.219
864.271 0 126.5 19.37 1.253 2.111
84.15 126.7 19.37 2.220
864.251 0 126.5 19.37 1.253 2.112
84.26 126.7 19.37 2.220
864.230 0 126.5 19.37 1.253 2.112
84.37 126.7 19.37 2.220
864.209 0 126.5 19.37 1.253 2.112
84.48 126.8 19.37 2.220
864.188 0 126.5 19.37 1.253 2.112
84.59 126.8 19.37 2.221
864.170 0 126.5 19.37 1.253 2.113
84.70 126.8 19.37 2.221
864.151 0 126.6 19.37 1.253 2.113
84.82 126.8 19.37 2.221
864.133 0 126.6 19.37 1.253 2.113
84.93 126.8 19.37 2.221
864.114 0 126.6 19.37 1.253 2.113
85.04 126.8 19.37 2.221
864.097 0 126.6 19.37 1.253 2.114
85.15 126.8 19.37 2.222
864.078 0 126.6 19.37 1.253 2.114
85.27 126.8 19.37 2.222
864.061 0 126.6 19.37 1.253 2.114
85.38 126.8 19.37 2.222
864.044 0 126.6 19.37 1.252 2.114
85.49 126.8 19.37 2.222
864.026 0 126.6 19.37 1.252 2.114
85.61 126.8 19.37 2.223
864.008 0 126.6 19.37 1.252 2.115
85.72 126.8 19.37 2.223
863.992 0 126.6 19.37 1.252 2.115
85.84 126.8 19.37 2.223
863.976 0 126.6 19.37 1.252 2.115
85.95 126.8 19.37 2.223
863.959 0 126.6 19.37 1.252 2.115
86.06 126.8 19.37 2.223
863.942 0 126.6 19.37 1.252 2.116
86.17 126.8 19.37 2.224
863.927 0 126.6 19.37 1.252 2.116
86.29 126.8 19.37 2.224
863.911 0 126.6 19.37 1.252 2.116
86.40 126.8 19.37 2.224
863.896 0 126.6 19.37 1.252 2.116
86.51 126.8 19.37 2.224
863.881 0 126.6 19.37 1.252 2.117
86.63 126.8 19.37 2.225
863.865 0 126.6 19.37 1.252 2.117
86.74 126.8 19.37 2.225
863.852 0 126.6 19.37 1.252 2.117
86.86 126.8 19.37 2.225
863.837 0 126.6 19.37 1.252 2.117
86.97 126.8 19.37 2.225
863.821 0 126.6 19.37 1.252 2.118
87.09 126.8 19.37 2.225
863.806 0 126.6 19.37 1.252 2.118
87.20 126.8 19.37 2.226
863.792 0 126.6 19.37 1.252 2.118
87.32 126.8 19.37 2.226
863.780 0 126.6 19.37 1.251 2.118
87.43 126.8 19.37 2.226
863.764 0 126.6 19.37 1.251 2.119
87.55 126.8 19.37 2.226
863.750 0 126.6 19.37 1.251 2.119
87.66 126.8 19.37 2.227
863.735 0 126.6 19.37 1.251 2.119
87.78 126.8 19.37 2.227
863.722 0 126.6 19.37 1.251 2.119
87.89 126.8 19.37 2.227
863.708 0 126.6 19.37 1.251 2.120
88.01 126.8 19.37 2.227
863.694 0 126.6 19.37 1.251 2.120
88.12 126.8 19.37 2.228
863.680 0 126.6 19.37 1.251 2.120
88.24 126.8 19.37 2.228
863.667 0 126.6 19.37 1.251 2.120
88.36 126.8 19.37 2.228
863.654 0 126.6 19.37 1.251 2.121
88.47 126.8 19.37 2.228
863.640 0 126.6 19.37 1.251 2.121
88.59 126.8 19.37 2.228
863.627 0 126.6 19.37 1.251 2.121
88.70 126.8 19.37 2.229
863.615 0 126.6 19.37 1.251 2.121
88.82 126.8 19.37 2.229
863.600 0 126.6 19.37 1.251 2.122
88.93 126.8 19.37 2.229
863.588 0 126.6 19.37 1.251 2.122
89.05 126.8 19.37 2.229
863.574 0 126.6 19.37 1.251 2.122
89.17 126.8 19.37 2.230
863.562 0 126.6 19.37 1.251 2.122
89.28 126.8 19.37 2.230
863.547 0 126.6 19.37 1.251 2.123
89.40 126.8 19.37 2.230
863.536 0 126.6 19.37 1.251 2.123
89.52 126.8 19.37 2.230
863.523 0 126.6 19.37 1.251 2.123
89.64 126.8 19.37 2.230
863.509 0 126.6 19.37 1.251 2.123
89.76 126.8 19.37 2.231
863.496 0 126.6 19.37 1.251 2.123
89.87 126.8 19.37 2.231
863.483 0 126.6 19.37 1.251 2.124
89.99 126.8 19.37 2.231
863.470 0 126.6 19.37 1.251 2.124
90.11 126.8 19.37 2.231
863.458 0 126.6 19.37 1.250 2.124
90.23 126.8 19.37 2.232
863.445 0 126.6 19.37 1.250 2.124
90.35 126.8 19.37 2.232
863.433 0 126.6 19.37 1.250 2.125
90.47 126.8 19.37 2.232
863.421 0 126.6 19.37 1.250 2.125
90.58 126.8 19.37 2.232
863.409 0 126.6 19.37 1.250 2.125
90.70 126.8 19.37 2.233
863.396 0 126.6 19.37 1.250 2.125
90.82 126.8 19.37 2.233
863.384 0 126.6 19.37 1.250 2.126
90.94 126.8 19.37 2.233
863.372 0 126.6 19.37 1.250 2.126
91.06 126.8 19.37 2.233
863.360 0 126.6 19.37 1.250 2.126
91.18 126.8 19.37 2.234
863.347 0 126.7 19.37 1.250 2.126
91.30 126.8 19.37 2.234
863.334 0 126.7 19.37 1.250 2.127
91.41 126.8 19.37 2.234
863.322 0 126.7 19.37 1.250 2.127
91.53 126.8 19.37 2.234
863.308 0 126.7 19.37 1.250 2.127
91.65 126.8 19.37 2.234
863.296 0 126.7 19.37 1.250 2.127
91.77 126.8 19.37 2.235
863.284 0 126.7 19.37 1.250 2.128
91.89 126.8 19.37 2.235
863.272 0 126.7 19.37 1.250 2.128
92.02 126.8 19.37 2.235
863.260 0 126.7 19.37 1.250 2.128
92.14 126.8 19.37 2.235
863.248 0 126.7 19.37 1.250 2.128
92.25 126.8 19.37 2.236
863.236 0 126.7 19.37 1.250 2.129
92.38 126.8 19.37 2.236
863.224 0 126.7 19.37 1.250 2.129
92.50 126.8 19.37 2.236
863.212 0 126.7 19.37 1.250 2.129
92.62 126.8 19.37 2.236
863.201 0 126.7 19.37 1.250 2.129
92.74 126.8 19.37 2.237
863.188 0 126.7 19.37 1.250 2.130
92.86 126.8 19.37 2.237
863.176 0 126.7 19.37 1.250 2.130
92.98 126.8 19.37 2.237
863.165 0 126.7 19.37 1.250 2.130
93.10 126.8 19.37 2.237
863.152 0 126.7 19.37 1.250 2.130
93.22 126.8 19.37 2.238
863.141 0 126.7 19.37 1.250 2.131
93.34 126.8 19.37 2.238
863.128 0 126.7 19.37 1.250 2.131
93.47 126.8 19.37 2.238
863.117 0 126.7 19.37 1.250 2.131
93.59 126.8 19.37 2.238
863.105 0 126.7 19.37 1.250 2.131
93.71 126.8 19.37 2.238
863.092 0 126.7 19.37 1.250 2.132
93.83 126.8 19.37 2.239
863.081 0 126.7 19.37 1.250 2.132
93.95 126.8 19.37 2.239
863.068 0 126.7 19.37 1.250 2.132
94.08 126.8 19.37 2.239
863.057 0 126.7 19.37 1.250 2.132
94.20 126.8 19.37 2.239
863.044 0 126.7 19.37 1.249 2.132
94.32 126.8 19.37 2.240
863.033 0 126.7 19.37 1.249 2.133
94.45 126.8 19.37 2.240
863.020 0 126.7 19.37 1.249 2.133
94.57 126.8 19.37 2.240
863.008 0 126.7 19.37 1.249 2.133
94.69 126.8 19.37 2.240
862.995 0 126.7 19.37 1.249 2.133
94.82 126.8 19.37 2.241
862.985 0 126.7 19.37 1.249 2.134
94.94 126.8 19.37 2.241
862.973 0 126.7 19.37 1.249 2.134
95.07 126.8 19.37 2.241
862.961 0 126.7 19.37 1.249 2.134
95.19 126.8 19.37 2.241
862.949 0 126.7 19.37 1.249 2.134
95.32 126.8 19.37 2.241
862.938 0 126.7 19.37 1.249 2.135
95.44 126.8 19.37 2.242
862.924 0 126.7 19.37 1.249 2.135
95.57 126.8 19.37 2.242
862.913 0 126.7 19.37 1.249 2.135
95.69 126.8 19.37 2.242
862.901 0 126.7 19.37 1.249 2.135
95.82 126.8 19.37 2.242
862.889 0 126.7 19.37 1.249 2.136
95.94 126.8 19.37 2.243
862.877 0 126.7 19.37 1.249 2.136
96.07 126.8 19.37 2.243
862.865 0 126.7 19.37 1.249 2.136
96.20 126.8 19.37 2.243
862.854 0 126.7 19.37 1.249 2.136
96.32 126.8 19.37 2.243
862.841 0 126.7 19.37 1.249 2.137
96.45 126.8 19.37 2.244
862.830 0 126.7 19.37 1.249 2.137
96.57 126.8 19.37 2.244
862.818 0 126.7 19.37 1.249 2.137
96.70 126.8 19.37 2.244
862.806 0 126.7 19.37 1.249 2.137
96.82 126.8 19.37 2.244
862.794 0 126.7 19.37 1.249 2.138
96.95 126.8 19.37 2.245
862.783 0 126.7 19.37 1.249 2.138
97.08 126.8 19.37 2.245
862.771 0 126.7 19.37 1.249 2.138
97.20 126.8 19.37 2.245
862.759 0 126.7 19.37 1.249 2.138
97.33 126.8 19.37 2.245
862.748 0 126.7 19.37 1.249 2.139
97.46 126.8 19.37 2.245
862.736 0 126.7 19.37 1.249 2.139
97.59 126.8 19.37 2.246
862.725 0 126.7 19.37 1.249 2.139
97.71 126.8 19.37 2.246
862.712 0 126.7 19.37 1.249 2.139
97.84 126.8 19.37 2.246
862.702 0 126.7 19.37 1.249 2.140
97.97 126.8 19.37 2.246
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
2.86E-04 | 0.00 0.00 -0.60 0.78 0.00 0.00 0.00 0.16
5.68E-04 | 0.00 0.00 -0.54 -0.55 0.00 -0.01 0.00 0.64
1.29E-03 | 0.00 0.00 -0.59 -0.30 0.00 0.00 0.00 -0.75
5.07E-01 | 0.93 0.02 -0.01 0.00 0.00 0.36 0.01 0.00
4.86E-01 | 0.36 0.00 0.00 0.00 0.00 -0.93 -0.02 0.00
8.53E+01 | 0.01 -0.72 0.00 0.00 0.00 -0.01 0.70 0.00
2.11E+02 | -0.02 0.70 0.00 0.00 0.03 -0.02 0.71 0.00
3.29E+05 | 0.00 0.02 0.00 0.00 -1.00 0.00 0.03 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 126.681 +/- 1.44717 1
2 2 1 gaussian Sigma keV 19.3655 +/- 16.8432 1
3 3 1 gaussian norm 1.24871 +/- 0.123754 1
4 4 2 powerlaw PhoIndex 2.13958 +/- 1.17817 1
5 5 2 powerlaw norm 97.9702 +/- 573.547 1
6 6 3 gaussian LineE keV 126.818 +/- 1.28070 2
7 7 3 gaussian Sigma keV 19.3655 +/- 19.9934 2
8 3 3 gaussian norm 1.24871 = par 3 2
9 8 4 powerlaw PhoIndex 2.24643 +/- 1.09553 2
10 5 4 powerlaw norm 97.9702 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 862.7018 using 198 PHA bins.
Reduced chi-squared = 4.540536 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.379) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.379) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.389 photons ( 2.9202E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.290 photons ( 2.7035E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:35 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.565 +/- 3.5304E-02
Net count rate (cts/s) for file 2 3.565 +/- 3.5304E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 9130.725 using 168 PHA bins.
Reduced chi-squared = 57.06703 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 859.7028 using 168 PHA bins.
Reduced chi-squared = 5.373143 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
197.750 -3 88.03 11.78 0.2415 0.8983
0.6879 88.66 11.48 0.8923
186.236 -4 85.08 11.35 0.2344 0.8788
0.6436 86.65 11.34 0.8781
185.624 -5 85.22 10.32 0.2244 0.8695
0.6239 86.66 10.75 0.8686
185.543 -6 85.04 10.63 0.2293 0.8736
0.6315 86.60 10.97 0.8723
185.534 -7 85.09 10.53 0.2277 0.8721
0.6289 86.62 10.89 0.8710
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.34E-05 | 0.00 0.00 -0.21 0.61 -0.46 0.00 0.00 0.61
1.80E-05 | 0.00 0.00 0.00 -0.70 0.01 0.00 0.00 0.71
2.10E-04 | 0.00 0.06 -0.97 -0.11 0.14 0.00 0.05 -0.11
1.38E-02 | 0.03 0.31 -0.02 -0.32 -0.81 0.03 0.22 -0.30
1.92E-02 | 0.00 -0.71 -0.01 -0.03 -0.06 0.01 0.70 -0.02
5.69E-02 | 0.01 -0.63 -0.09 -0.14 -0.31 0.01 -0.68 -0.13
1.19E+00 | 0.49 0.00 0.00 0.01 0.03 0.87 0.00 0.01
1.03E+00 | -0.87 0.00 0.00 0.00 -0.01 0.49 0.00 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 85.0937 +/- 1.03342 1
2 2 1 gaussian Sigma keV 10.5282 +/- 0.183390 1
3 3 1 gaussian norm 0.227714 +/- 0.251937E-01 1
4 4 2 powerlaw PhoIndex 0.872137 +/- 0.522930E-01 1
5 5 2 powerlaw norm 0.628863 +/- 0.127738 1
6 6 3 gaussian LineE keV 86.6230 +/- 1.07262 2
7 7 3 gaussian Sigma keV 10.8936 +/- 0.190293 2
8 3 3 gaussian norm 0.227714 = par 3 2
9 8 4 powerlaw PhoIndex 0.870981 +/- 0.502442E-01 2
10 5 4 powerlaw norm 0.628863 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 185.5341 using 168 PHA bins.
Reduced chi-squared = 1.159588 for 160 degrees of freedom
Null hypothesis probability = 8.156E-02
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 83.4380 86.7167 ( -1.65576 , 1.62296 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 84.9079 88.3213 ( -1.71514 , 1.69825 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.450 photons ( 1.7801E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.456 photons ( 1.7930E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
3.148652
=====best line=====
85.0682 1.02237
=====best sigma=====
10.5753 0.179998
=====norm=====
0.228441 0.247683E-01
=====phoindx=====
0.872800 0.518448E-01
=====pow_norm=====
0.630073 0.126134
=====best line=====
86.6151 1.06949
=====best sigma=====
10.9249 0.188069
=====norm=====
0.228441 par
=====phoindx=====
0.871565 0.498149E-01
=====pow_norm=====
0.630073 par
=====redu_chi=====
1.159585
=====slow error=====
-1.62723 1.65452
=====fast error=====
-1.70664 1.70678
=====area_flux=====
1.450
=====area_flux_f=====
1.456
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
26.254 27.30736
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 13 1 640 2000 1361.0912 26.254 0.228441 0.247683E-01 10.5753 0.179998 0.872800 0.518448E-01 0.630073 0.126134 1.450 640 2000 1385.8416 27.30736 0.228441 0.247683E-01 10.9249 0.188069 0.871565 0.498149E-01 0.630073 0.126134 1.456 1.159585 0
=====redu_chi=====
15.72900
=====best line=====
126.681 1.44717
=====best sigma=====
19.3655 16.8432
=====norm=====
1.24871 0.123754
=====phoindx=====
2.13958 1.17817
=====pow_norm=====
97.9702 573.547
=====best line=====
126.818 1.28070
=====best sigma=====
19.3655 19.9934
=====norm=====
1.24871 par
=====phoindx=====
2.24643 1.09553
=====pow_norm=====
97.9702 par
=====redu_chi=====
4.540536
=====area_flux=====
1.389
=====area_flux_f=====
1.290
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
26.254 27.30736
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 13 1 1600 3200 2026.896 26.254 1.24871 0.123754 309.848 269.4912 2.13958 1.17817 97.9702 573.547 1.389 1600 3200 2029.088 27.30736 1.24871 0.123754 309.848 319.8944 2.24643 1.09553 97.9702 573.547 1.290 4.540536 1
=====redu_chi=====
5.373143
=====best line=====
85.0937 1.03342
=====best sigma=====
10.5282 0.183390
=====norm=====
0.227714 0.251937E-01
=====phoindx=====
0.872137 0.522930E-01
=====pow_norm=====
0.628863 0.127738
=====best line=====
86.6230 1.07262
=====best sigma=====
10.8936 0.190293
=====norm=====
0.227714 par
=====phoindx=====
0.870981 0.502442E-01
=====pow_norm=====
0.628863 par
=====redu_chi=====
1.159588
=====slow error=====
-1.65576 1.62296
=====fast error=====
-1.71514 1.69825
=====area_flux=====
1.450
=====area_flux_f=====
1.456
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
26.22976 27.30712
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 13 1 640 2000 1361.4992 26.22976 0.227714 0.251937E-01 10.5282 0.183390 0.872137 0.522930E-01 0.628863 0.127738 1.450 640 2000 1385.968 27.30712 0.227714 0.251937E-01 10.8936 0.190293 0.870981 0.502442E-01 0.628863 0.127738 1.456 1.159588 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:35 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.606 +/- 3.5508E-02
Net count rate (cts/s) for file 2 3.606 +/- 3.5508E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 8555.613 using 168 PHA bins.
Reduced chi-squared = 53.47258 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 689.0694 using 168 PHA bins.
Reduced chi-squared = 4.306684 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
203.659 -3 85.06 15.65 0.2892 0.9226
0.7115 85.38 15.41 0.9198
162.616 -3 80.27 10.07 0.2193 0.8494
0.5654 81.05 10.55 0.8529
159.206 -4 80.16 10.51 0.2154 0.8543
0.5870 81.21 10.89 0.8554
159.154 -5 80.23 10.27 0.2140 0.8540
0.5882 81.26 10.84 0.8555
159.151 -6 80.19 10.34 0.2149 0.8542
0.5882 81.25 10.87 0.8556
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.28E-05 | 0.00 0.00 -0.20 0.62 -0.49 0.00 0.00 0.58
1.77E-05 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
2.13E-04 | 0.00 0.05 -0.98 -0.11 0.13 0.00 0.05 -0.11
1.19E-02 | 0.03 0.12 -0.02 -0.36 -0.85 0.03 0.11 -0.34
2.19E-02 | -0.01 -0.71 0.00 -0.01 -0.01 0.01 0.70 0.00
5.11E-02 | 0.01 0.69 0.08 0.07 0.13 0.01 0.70 0.07
1.13E+00 | -0.92 0.01 0.00 0.00 -0.01 0.39 0.00 0.00
1.39E+00 | 0.39 -0.01 0.00 0.01 0.03 0.92 -0.01 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 80.1882 +/- 1.08265 1
2 2 1 gaussian Sigma keV 10.3441 +/- 0.189494 1
3 3 1 gaussian norm 0.214862 +/- 0.224099E-01 1
4 4 2 powerlaw PhoIndex 0.854199 +/- 0.444379E-01 1
5 5 2 powerlaw norm 0.588235 +/- 0.103557 1
6 6 3 gaussian LineE keV 81.2481 +/- 1.16161 2
7 7 3 gaussian Sigma keV 10.8738 +/- 0.190550 2
8 3 3 gaussian norm 0.214862 = par 3 2
9 8 4 powerlaw PhoIndex 0.855649 +/- 0.426959E-01 2
10 5 4 powerlaw norm 0.588235 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 159.1512 using 168 PHA bins.
Reduced chi-squared = 0.9946947 for 160 degrees of freedom
Null hypothesis probability = 0.504
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 78.4658 81.9124 ( -1.72236 , 1.72429 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 79.4043 83.0772 ( -1.84386 , 1.82912 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.449 photons ( 1.7629E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.441 photons ( 1.7571E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:35 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.813 +/- 5.5511E-02
Net count rate (cts/s) for file 2 8.813 +/- 5.5511E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.207 +/- 6.5896E-02( 59.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.207 +/- 6.5896E-02( 59.1% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 22982.92 using 198 PHA bins.
Reduced chi-squared = 120.9627 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 3976.409 using 198 PHA bins.
Reduced chi-squared = 20.92847 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2692.06 -3 129.7 18.06 0.5122 3.375
2.635 128.3 18.25 3.293
1557.24 -4 107.7 19.31 1.991 8.090
2.2218E+04 105.3 19.28 7.406
1407.35 0 109.6 19.34 1.955 9.172
3108. 107.9 19.34 9.462
1281.25 0 111.3 19.35 1.921 9.442
1271. 110.2 19.35 9.486
1178.24 0 112.9 19.36 1.890 9.499
626.8 112.2 19.36 9.494
1097.31 0 114.2 19.36 1.863 9.500
148.1 113.8 19.36 9.500
1035.03 0 115.4 19.36 1.839 9.500
4.857 115.2 19.37 9.500
987.656 0 116.3 19.37 1.817 9.500
2.273 116.3 19.37 9.500
951.928 0 117.2 19.37 1.799 9.500
0.8480 117.1 19.37 9.500
924.664 0 117.9 19.37 1.782 9.500
7.0607E-02 117.8 19.37 9.500
903.945 0 118.5 19.37 1.768 9.500
1.9100E-02 118.4 19.37 9.500
888.072 0 119.0 19.37 1.756 9.500
5.6388E-03 118.8 19.37 9.500
875.856 0 119.4 19.37 1.746 9.500
1.1525E-03 119.2 19.37 9.500
866.402 0 119.7 19.37 1.738 9.500
3.4600E-04 119.5 19.37 9.500
847.874 0 120.5 19.37 1.716 9.500
3.0856E-07 119.9 19.37 9.500
844.276 0 120.6 19.37 1.712 9.500
1.3859E-07 120.0 19.37 9.500
841.461 0 120.8 19.37 1.708 9.500
5.3197E-08 120.0 19.37 9.500
839.198 0 120.9 19.37 1.705 9.500
1.0169E-08 120.1 19.37 9.500
837.498 0 121.0 19.37 1.703 9.500
4.7599E-09 120.2 19.37 9.500
836.155 0 121.0 19.37 1.702 9.500
2.0496E-09 120.2 19.37 9.500
835.124 0 121.1 19.37 1.700 9.500
6.9001E-10 120.2 19.37 9.500
834.207 0 121.1 19.37 1.699 9.500
7.8730E-12 120.2 19.37 9.500
833.483 0 121.2 19.37 1.698 9.500
2.5507E-12 120.3 19.37 9.500
Fit parameter 5 has pegged
830.991 0 121.2 19.37 1.690 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
830.151 0 121.2 19.37 1.687 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
829.991 0 121.2 19.37 1.686 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
826.651 0 121.3 19.37 1.678 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
823.647 0 121.4 19.37 1.671 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
820.945 0 121.5 19.37 1.665 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
818.501 0 121.6 19.37 1.659 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
816.287 0 121.6 19.37 1.654 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
814.279 0 121.7 19.37 1.649 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
812.451 0 121.8 19.37 1.644 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
810.782 0 121.9 19.37 1.640 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
809.258 0 122.0 19.37 1.636 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
807.866 0 122.0 19.37 1.632 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
806.587 0 122.1 19.37 1.628 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
805.415 0 122.2 19.37 1.625 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
804.337 0 122.2 19.37 1.622 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
803.346 0 122.3 19.37 1.619 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
802.433 0 122.4 19.37 1.616 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
801.591 0 122.4 19.37 1.614 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
800.813 0 122.5 19.37 1.612 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
800.096 0 122.6 19.37 1.609 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
799.435 0 122.6 19.37 1.607 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
798.823 0 122.7 19.37 1.605 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
798.256 0 122.7 19.37 1.603 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
797.734 0 122.8 19.37 1.602 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
797.249 0 122.8 19.37 1.600 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
796.799 0 122.9 19.37 1.598 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
796.382 0 122.9 19.37 1.597 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
795.994 0 123.0 19.37 1.595 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
795.636 0 123.0 19.37 1.594 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
795.304 0 123.0 19.37 1.593 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
794.995 0 123.1 19.37 1.592 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
794.705 0 123.1 19.37 1.591 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
794.439 0 123.2 19.37 1.590 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
794.189 0 123.2 19.37 1.588 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
793.956 0 123.2 19.37 1.588 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
793.741 0 123.3 19.37 1.587 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
793.539 0 123.3 19.37 1.586 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
793.352 0 123.3 19.37 1.585 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
793.177 0 123.4 19.37 1.584 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
793.013 0 123.4 19.37 1.583 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
792.861 0 123.4 19.37 1.583 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
792.720 0 123.4 19.37 1.582 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
792.586 0 123.5 19.37 1.581 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
792.462 0 123.5 19.37 1.581 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
792.346 0 123.5 19.37 1.580 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
792.236 0 123.5 19.37 1.580 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
792.135 0 123.5 19.37 1.579 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
792.040 0 123.6 19.37 1.579 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
791.950 0 123.6 19.37 1.578 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.866 0 123.6 19.37 1.578 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.787 0 123.6 19.37 1.577 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.714 0 123.6 19.37 1.577 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.644 0 123.7 19.37 1.576 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.580 0 123.7 19.37 1.576 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.518 0 123.7 19.37 1.576 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.460 0 123.7 19.37 1.575 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.406 0 123.7 19.37 1.575 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.356 0 123.7 19.37 1.575 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.307 0 123.7 19.37 1.574 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.261 0 123.7 19.37 1.574 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.220 0 123.8 19.37 1.574 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.178 0 123.8 19.37 1.574 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.141 0 123.8 19.37 1.573 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
791.105 0 123.8 19.37 1.573 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
791.070 0 123.8 19.37 1.573 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
791.039 0 123.8 19.37 1.573 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
791.010 0 123.8 19.37 1.572 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.981 0 123.8 19.37 1.572 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.954 0 123.8 19.37 1.572 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.928 0 123.8 19.37 1.572 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.904 0 123.9 19.37 1.572 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.880 0 123.9 19.37 1.571 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.859 0 123.9 19.37 1.571 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.838 0 123.9 19.37 1.571 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.819 0 123.9 19.37 1.571 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.801 0 123.9 19.37 1.571 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.784 0 123.9 19.37 1.571 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.768 0 123.9 19.37 1.571 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.752 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.736 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.723 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.710 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.697 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.685 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.672 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.662 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.652 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.644 0 123.9 19.37 1.570 9.500
0.000 121.6 19.37 9.500
790.621 0 124.0 19.37 1.570 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.612 0 124.0 19.37 1.569 9.500
0.000 121.6 19.37 9.500
790.590 0 124.0 19.37 1.569 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.582 0 124.0 19.37 1.569 9.500
0.000 121.6 19.37 9.500
790.565 0 124.0 19.37 1.569 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
790.559 0 124.0 19.37 1.569 9.500
0.000 121.6 19.37 9.500
790.545 0 124.0 19.37 1.569 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
790.538 0 124.0 19.37 1.569 9.500
0.000 121.6 19.37 9.500
790.525 0 124.0 19.37 1.569 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
790.520 0 124.0 19.37 1.569 9.500
0.000 121.7 19.37 9.500
790.509 0 124.0 19.37 1.569 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
790.504 0 124.0 19.37 1.569 9.500
0.000 121.7 19.37 9.500
790.494 0 124.0 19.37 1.569 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
790.490 0 124.0 19.37 1.569 9.500
0.000 121.7 19.37 9.500
790.480 0 124.0 19.37 1.569 9.500
0.000 121.7 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
5.45E-04 | -0.01 0.00 -1.00 -0.01 0.00
3.12E-01 | 0.55 0.01 0.00 -0.83 -0.03
3.39E-01 | -0.83 -0.03 0.01 -0.55 -0.03
7.34E+01 | -0.03 0.77 0.00 -0.04 0.64
4.46E+01 | 0.02 -0.64 0.00 -0.03 0.77
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 124.005 +/- 0.651428 1
2 2 1 gaussian Sigma keV 19.3655 +/- 7.84730 1
3 3 1 gaussian norm 1.56852 +/- 0.309940E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 121.667 +/- 0.672352 2
7 7 3 gaussian Sigma keV 19.3655 +/- 7.50239 2
8 3 3 gaussian norm 1.56852 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 790.4805 using 198 PHA bins.
Reduced chi-squared = 4.160424 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.013) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.013) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.400 photons ( 2.8707E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.362 photons ( 2.7586E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:36 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.606 +/- 3.5508E-02
Net count rate (cts/s) for file 2 3.606 +/- 3.5508E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 10605.80 using 168 PHA bins.
Reduced chi-squared = 66.28622 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1145.287 using 168 PHA bins.
Reduced chi-squared = 7.158045 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
213.325 -3 86.75 13.15 0.2189 0.8972
0.6967 87.07 12.65 0.8942
173.157 -4 79.15 14.25 0.2456 0.8738
0.6220 80.47 13.76 0.8759
166.586 -5 81.75 9.268 0.1718 0.8585
0.6199 82.11 9.617 0.8598
163.203 0 81.05 9.422 0.1807 0.8592
0.6177 81.79 9.782 0.8605
161.569 0 80.70 9.562 0.1877 0.8598
0.6159 81.62 9.956 0.8611
160.743 0 80.51 9.689 0.1932 0.8602
0.6144 81.52 10.47 0.8616
160.088 0 80.40 9.808 0.1980 0.8606
0.6131 81.46 10.40 0.8620
159.759 0 80.34 9.907 0.2015 0.8609
0.6121 81.42 10.44 0.8623
159.561 0 80.31 9.988 0.2042 0.8611
0.6113 81.39 10.50 0.8626
159.322 -1 80.23 10.54 0.2127 0.8617
0.6086 81.31 10.81 0.8632
159.175 -2 80.27 10.32 0.2153 0.8604
0.6040 81.29 10.89 0.8619
159.154 -3 80.21 10.35 0.2151 0.8559
0.5929 81.26 10.88 0.8576
159.151 -4 80.20 10.32 0.2147 0.8542
0.5884 81.25 10.86 0.8557
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.28E-05 | 0.00 0.00 -0.20 0.62 -0.49 0.00 0.00 0.58
1.77E-05 | 0.00 0.00 -0.01 -0.69 -0.01 0.00 0.00 0.73
2.15E-04 | 0.00 0.06 -0.98 -0.11 0.13 0.00 0.05 -0.11
1.20E-02 | 0.03 0.15 -0.02 -0.35 -0.85 0.03 0.10 -0.34
2.06E-02 | -0.01 -0.75 -0.01 -0.02 -0.04 0.01 0.66 -0.01
4.90E-02 | 0.01 0.64 0.08 0.07 0.14 0.01 0.75 0.07
1.14E+00 | -0.91 0.01 0.00 0.00 -0.01 0.41 0.00 0.00
1.39E+00 | 0.41 -0.01 0.00 0.01 0.03 0.91 -0.01 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 80.1984 +/- 1.08841 1
2 2 1 gaussian Sigma keV 10.3228 +/- 0.179476 1
3 3 1 gaussian norm 0.214653 +/- 0.225495E-01 1
4 4 2 powerlaw PhoIndex 0.854161 +/- 0.445548E-01 1
5 5 2 powerlaw norm 0.588417 +/- 0.104623 1
6 6 3 gaussian LineE keV 81.2516 +/- 1.16181 2
7 7 3 gaussian Sigma keV 10.8640 +/- 0.191193 2
8 3 3 gaussian norm 0.214653 = par 3 2
9 8 4 powerlaw PhoIndex 0.855691 +/- 0.428108E-01 2
10 5 4 powerlaw norm 0.588417 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 159.1510 using 168 PHA bins.
Reduced chi-squared = 0.9946936 for 160 degrees of freedom
Null hypothesis probability = 0.504
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 78.4676 81.9118 ( -1.73086 , 1.71334 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 79.4060 83.0789 ( -1.84563 , 1.82730 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.449 photons ( 1.7634E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.441 photons ( 1.7571E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
4.306684
=====best line=====
80.1882 1.08265
=====best sigma=====
10.3441 0.189494
=====norm=====
0.214862 0.224099E-01
=====phoindx=====
0.854199 0.444379E-01
=====pow_norm=====
0.588235 0.103557
=====best line=====
81.2481 1.16161
=====best sigma=====
10.8738 0.190550
=====norm=====
0.214862 par
=====phoindx=====
0.855649 0.426959E-01
=====pow_norm=====
0.588235 par
=====redu_chi=====
0.9946947
=====slow error=====
-1.72236 1.72429
=====fast error=====
-1.84386 1.82912
=====area_flux=====
1.449
=====area_flux_f=====
1.441
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
27.5732 29.38384
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 14 1 640 2000 1283.0112 27.5732 0.214862 0.224099E-01 10.3441 0.189494 0.854199 0.444379E-01 0.588235 0.103557 1.449 640 2000 1299.9696 29.38384 0.214862 0.224099E-01 10.8738 0.190550 0.855649 0.426959E-01 0.588235 0.103557 1.441 0.9946947 0
=====redu_chi=====
20.92847
=====best line=====
124.005 0.651428
=====best sigma=====
19.3655 7.84730
=====norm=====
1.56852 0.309940E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
121.667 0.672352
=====best sigma=====
19.3655 7.50239
=====norm=====
1.56852 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
4.160424
=====area_flux=====
1.400
=====area_flux_f=====
1.362
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
27.5732 29.38384
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 14 1 1600 3200 1984.08 27.5732 1.56852 0.309940E-01 309.848 125.5568 9.50000 -1.00000 0.00000 -1.00000 1.400 1600 3200 1946.672 29.38384 1.56852 0.309940E-01 309.848 120.03824 9.50000 -1.00000 0.00000 -1.00000 1.362 4.160424 1
=====redu_chi=====
7.158045
=====best line=====
80.1984 1.08841
=====best sigma=====
10.3228 0.179476
=====norm=====
0.214653 0.225495E-01
=====phoindx=====
0.854161 0.445548E-01
=====pow_norm=====
0.588417 0.104623
=====best line=====
81.2516 1.16181
=====best sigma=====
10.8640 0.191193
=====norm=====
0.214653 par
=====phoindx=====
0.855691 0.428108E-01
=====pow_norm=====
0.588417 par
=====redu_chi=====
0.9946936
=====slow error=====
-1.73086 1.71334
=====fast error=====
-1.84563 1.82730
=====area_flux=====
1.449
=====area_flux_f=====
1.441
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
27.5536 29.38344
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 14 1 640 2000 1283.1744 27.5536 0.214653 0.225495E-01 10.3228 0.179476 0.854161 0.445548E-01 0.588417 0.104623 1.449 640 2000 1300.0256 29.38344 0.214653 0.225495E-01 10.8640 0.191193 0.855691 0.428108E-01 0.588417 0.104623 1.441 0.9946936 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 16:13:36 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.505 +/- 3.5005E-02
Net count rate (cts/s) for file 2 3.505 +/- 3.5005E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 11103.84 using 168 PHA bins.
Reduced chi-squared = 69.39902 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 752.4073 using 168 PHA bins.
Reduced chi-squared = 4.702546 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
387.555 -3 84.85 11.07 9.5082E-02 0.7928
0.4990 85.47 10.14 0.7910
278.046 -4 78.31 9.533 0.1834 0.9780
0.8011 81.48 9.677 0.9718
213.304 -5 82.47 10.78 0.1965 1.056
1.164 83.77 9.939 1.053
177.794 -6 82.37 9.854 0.1969 1.049
1.234 83.70 9.739 1.049
177.756 -7 82.31 9.716 0.2043 1.058
1.269 83.67 10.34 1.057
177.509 -8 82.31 9.649 0.2008 1.054
1.254 83.72 9.954 1.054
177.474 -9 82.30 9.763 0.2039 1.057
1.268 83.69 9.955 1.057
177.472 -10 82.31 9.713 0.2033 1.057
1.266 83.69 9.939 1.056
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.73E-05 | 0.00 0.00 -0.25 0.66 -0.25 0.00 0.00 0.66
1.96E-05 | 0.00 0.00 0.00 -0.70 0.00 0.00 0.00 0.71
1.76E-04 | 0.00 0.01 -0.97 -0.17 0.08 0.00 0.01 -0.17
5.32E-02 | 0.05 0.05 -0.02 -0.19 -0.96 0.05 0.07 -0.18
4.92E-01 | -0.07 -0.51 0.00 0.01 0.03 0.07 0.85 0.01
1.26E+00 | 0.29 -0.80 -0.01 -0.01 -0.05 0.21 -0.47 -0.01
9.40E-01 | 0.88 0.11 0.00 0.01 0.04 -0.44 0.17 0.01
1.04E+00 | 0.37 0.28 0.00 0.02 0.09 0.87 0.13 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 82.3114 +/- 0.988077 1
2 2 1 gaussian Sigma keV 9.71288 +/- 1.01662 1
3 3 1 gaussian norm 0.203293 +/- 0.202840E-01 1
4 4 2 powerlaw PhoIndex 1.05661 +/- 0.501480E-01 1
5 5 2 powerlaw norm 1.26637 +/- 0.248311 1
6 6 3 gaussian LineE keV 83.6905 +/- 1.01187 2
7 7 3 gaussian Sigma keV 9.93873 +/- 0.824339 2
8 3 3 gaussian norm 0.203293 = par 3 2
9 8 4 powerlaw PhoIndex 1.05648 +/- 0.481657E-01 2
10 5 4 powerlaw norm 1.26637 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 177.4719 using 168 PHA bins.
Reduced chi-squared = 1.109200 for 160 degrees of freedom
Null hypothesis probability = 0.163
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 80.7239 83.8735 ( -1.58749 , 1.56205 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 82.0600 85.3034 ( -1.63046 , 1.61290 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.326 photons ( 1.5923E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.326 photons ( 1.5976E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 16:13:36 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.282 +/- 5.3812E-02
Net count rate (cts/s) for file 2 8.282 +/- 5.3812E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.777 +/- 6.4196E-02( 57.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.777 +/- 6.4196E-02( 57.7% total)
using background file... ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 19053.20 using 198 PHA bins.
Reduced chi-squared = 100.2800 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 4154.180 using 198 PHA bins.
Reduced chi-squared = 21.86411 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3075.78 -3 129.1 17.35 0.5220 3.582
3.518 128.6 17.75 3.493
1913.01 -4 110.2 19.06 2.169 8.283
1206. 108.3 19.20 8.347
1659.10 0 111.6 19.36 2.046 9.397
557.9 110.0 19.30 9.400
1496.45 0 113.1 19.37 1.970 9.488
39.90 111.9 19.36 9.500
1374.35 0 114.6 19.37 1.919 9.496
4.798 113.7 19.36 9.500
1283.52 0 115.9 19.37 1.883 9.499
2.079 115.2 19.37 9.500
1218.03 0 116.9 19.37 1.858 9.500
0.3792 116.5 19.37 9.500
1171.18 0 117.8 19.37 1.839 9.500
0.1324 117.5 19.37 9.500
1137.77 0 118.5 19.37 1.825 9.500
6.2544E-02 118.3 19.37 9.500
1113.52 0 119.1 19.37 1.814 9.500
2.3740E-02 119.0 19.37 9.500
1095.90 0 119.5 19.37 1.805 9.500
2.9453E-03 119.5 19.37 9.500
1082.86 0 119.9 19.37 1.798 9.500
8.2330E-04 119.9 19.37 9.500
1073.14 0 120.2 19.37 1.792 9.500
1.5555E-04 120.2 19.37 9.500
1059.94 0 120.6 19.37 1.783 9.500
2.9162E-05 120.6 19.37 9.500
1051.83 0 120.9 19.37 1.777 9.500
2.1443E-06 120.9 19.37 9.500
1049.20 0 121.0 19.37 1.775 9.500
9.7343E-07 121.0 19.37 9.500
1047.15 0 121.1 19.37 1.773 9.500
3.8365E-07 121.0 19.37 9.500
1045.56 0 121.1 19.37 1.772 9.500
8.5179E-08 121.1 19.37 9.500
1044.29 0 121.2 19.37 1.771 9.500
1.0781E-08 121.1 19.37 9.500
1043.21 0 121.2 19.37 1.770 9.500
1.3356E-09 121.2 19.37 9.500
1042.45 0 121.3 19.37 1.769 9.500
1.5833E-10 121.2 19.37 9.500
1041.84 0 121.3 19.37 1.769 9.500
9.8689E-12 121.2 19.37 9.500
1041.28 0 121.3 19.37 1.768 9.500
5.8871E-13 121.2 19.37 9.500
Fit parameter 5 has pegged
1039.72 0 121.3 19.37 1.765 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
1039.01 0 121.4 19.37 1.763 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
1038.64 0 121.4 19.37 1.763 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
1038.39 0 121.4 19.37 1.762 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
1038.14 0 121.4 19.37 1.762 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
1031.87 0 121.5 19.37 1.751 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
1026.34 0 121.5 19.37 1.742 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
1021.42 0 121.6 19.37 1.733 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
1017.04 0 121.7 19.37 1.724 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
1013.13 0 121.8 19.37 1.717 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
1009.63 0 121.9 19.37 1.710 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
1006.47 0 121.9 19.37 1.703 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
1003.63 0 122.0 19.37 1.698 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
1001.06 0 122.1 19.37 1.692 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
998.724 0 122.2 19.37 1.687 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
996.604 0 122.2 19.37 1.682 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
994.669 0 122.3 19.37 1.678 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
992.907 0 122.4 19.37 1.674 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
991.297 0 122.4 19.37 1.670 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
989.821 0 122.5 19.37 1.666 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
988.470 0 122.6 19.37 1.663 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
987.226 0 122.6 19.37 1.660 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
986.081 0 122.7 19.37 1.657 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
985.028 0 122.8 19.37 1.654 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
984.059 0 122.8 19.37 1.652 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
983.164 0 122.9 19.37 1.650 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
982.338 0 122.9 19.37 1.647 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
981.574 0 123.0 19.37 1.645 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
980.867 0 123.0 19.37 1.643 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
980.213 0 123.1 19.37 1.642 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
979.606 0 123.1 19.37 1.640 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
979.045 0 123.2 19.37 1.638 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
978.523 0 123.2 19.37 1.637 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
978.037 0 123.3 19.37 1.635 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
977.587 0 123.3 19.37 1.634 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
977.168 0 123.3 19.37 1.633 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
976.778 0 123.4 19.37 1.631 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
976.415 0 123.4 19.37 1.630 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
976.078 0 123.5 19.37 1.629 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
975.762 0 123.5 19.37 1.628 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
975.470 0 123.5 19.37 1.627 9.500
0.000 123.1 19.37 9.500
Fit parameter 5 has pegged
975.197 0 123.6 19.37 1.626 9.500
0.000 123.1 19.37 9.500
Fit parameter 5 has pegged
974.940 0 123.6 19.37 1.625 9.500
0.000 123.1 19.37 9.500
Fit parameter 5 has pegged
974.700 0 123.6 19.37 1.625 9.500
0.000 123.1 19.37 9.500
Fit parameter 5 has pegged
974.478 0 123.6 19.37 1.624 9.500
0.000 123.2 19.37 9.500
Fit parameter 5 has pegged
974.268 0 123.7 19.37 1.623 9.500
0.000 123.2 19.37 9.500
Fit parameter 5 has pegged
974.073 0 123.7 19.37 1.622 9.500
0.000 123.2 19.37 9.500
Fit parameter 5 has pegged
973.890 0 123.7 19.37 1.622 9.500
0.000 123.2 19.37 9.500
Fit parameter 5 has pegged
973.718 0 123.7 19.37 1.621 9.500
0.000 123.2 19.37 9.500
Fit parameter 5 has pegged
973.557 0 123.8 19.37 1.620 9.500
0.000 123.2 19.37 9.500
Fit parameter 5 has pegged
973.404 0 123.8 19.37 1.620 9.500
0.000 123.3 19.37 9.500
Fit parameter 5 has pegged
973.264 0 123.8 19.37 1.619 9.500
0.000 123.3 19.37 9.500
Fit parameter 5 has pegged
973.131 0 123.8 19.37 1.619 9.500
0.000 123.3 19.37 9.500
Fit parameter 5 has pegged
973.007 0 123.9 19.37 1.618 9.500
0.000 123.3 19.37 9.500
Fit parameter 5 has pegged
972.890 0 123.9 19.37 1.618 9.500
0.000 123.3 19.37 9.500
Fit parameter 5 has pegged
972.781 0 123.9 19.37 1.617 9.500
0.000 123.3 19.37 9.500
Fit parameter 5 has pegged
972.677 0 123.9 19.37 1.617 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
972.580 0 123.9 19.37 1.617 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
972.489 0 123.9 19.37 1.616 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
972.403 0 124.0 19.37 1.616 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
972.321 0 124.0 19.37 1.615 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
972.244 0 124.0 19.37 1.615 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
972.171 0 124.0 19.37 1.615 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
972.104 0 124.0 19.37 1.614 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
972.039 0 124.0 19.37 1.614 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
971.978 0 124.0 19.37 1.614 9.500
0.000 123.4 19.37 9.500
Fit parameter 5 has pegged
971.920 0 124.1 19.37 1.614 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.866 0 124.1 19.37 1.613 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.815 0 124.1 19.37 1.613 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.766 0 124.1 19.37 1.613 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.720 0 124.1 19.37 1.613 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.677 0 124.1 19.37 1.612 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.635 0 124.1 19.37 1.612 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.596 0 124.1 19.37 1.612 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.559 0 124.1 19.37 1.612 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.525 0 124.1 19.37 1.612 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.491 0 124.1 19.37 1.611 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.459 0 124.2 19.37 1.611 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.430 0 124.2 19.37 1.611 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.401 0 124.2 19.37 1.611 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.374 0 124.2 19.37 1.611 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.348 0 124.2 19.37 1.611 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.324 0 124.2 19.37 1.611 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.301 0 124.2 19.37 1.610 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.278 0 124.2 19.37 1.610 9.500
0.000 123.5 19.37 9.500
Fit parameter 5 has pegged
971.258 0 124.2 19.37 1.610 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.238 0 124.2 19.37 1.610 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.219 0 124.2 19.37 1.610 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.200 0 124.2 19.37 1.610 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.184 0 124.2 19.37 1.610 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.167 0 124.2 19.37 1.610 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.152 0 124.2 19.37 1.610 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.136 0 124.2 19.37 1.610 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.122 0 124.2 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.109 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.096 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.083 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.071 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.060 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.050 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
971.029 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.018 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
971.010 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
970.992 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
970.985 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
970.969 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
970.962 0 124.3 19.37 1.609 9.500
0.000 123.6 19.37 9.500
970.948 0 124.3 19.37 1.608 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
970.943 0 124.3 19.37 1.608 9.500
0.000 123.6 19.37 9.500
970.930 0 124.3 19.37 1.608 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
970.925 0 124.3 19.37 1.608 9.500
0.000 123.6 19.37 9.500
970.914 0 124.3 19.37 1.608 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
970.910 0 124.3 19.37 1.608 9.500
0.000 123.6 19.37 9.500
970.900 0 124.3 19.37 1.608 9.500
0.000 123.6 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
5.19E-04 | -0.01 0.00 -1.00 -0.01 0.00
3.22E-01 | 0.88 0.02 -0.01 0.47 0.02
3.00E-01 | 0.47 0.01 0.00 -0.88 -0.02
8.66E+01 | -0.02 0.78 0.00 -0.02 0.63
4.89E+01 | 0.01 -0.63 0.00 -0.02 0.78
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 124.313 +/- 0.607327 1
2 2 1 gaussian Sigma keV 19.3655 +/- 8.47231 1
3 3 1 gaussian norm 1.60818 +/- 0.310602E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 123.622 +/- 0.611713 2
7 7 3 gaussian Sigma keV 19.3655 +/- 7.97580 2
8 3 3 gaussian norm 1.60818 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 970.9003 using 198 PHA bins.
Reduced chi-squared = 5.110002 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.928) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.928) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.440 photons ( 2.9578E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.429 photons ( 2.9249E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_slow.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_fast.pha
with integration time 2860.
Background file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 16:13:37 04-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.505 +/- 3.5005E-02
Net count rate (cts/s) for file 2 3.505 +/- 3.5005E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12839.51 using 168 PHA bins.
Reduced chi-squared = 80.24696 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 1068.384 using 168 PHA bins.
Reduced chi-squared = 6.677399 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
333.221 -3 86.63 10.60 0.1615 0.9854
0.8144 87.17 9.992 0.9762
196.704 -4 80.67 10.12 0.1919 1.039
1.118 82.84 9.996 1.036
178.056 -5 82.57 9.865 0.1973 1.053
1.243 83.77 9.901 1.052
177.477 -6 82.30 9.690 0.2033 1.057
1.265 83.68 9.964 1.056
177.472 -7 82.31 9.737 0.2034 1.057
1.267 83.69 9.943 1.057
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.73E-05 | 0.00 0.00 -0.25 0.66 -0.25 0.00 0.00 0.66
1.96E-05 | 0.00 0.00 0.00 -0.70 0.00 0.00 0.00 0.71
1.75E-04 | 0.00 0.01 -0.97 -0.17 0.08 0.00 0.01 -0.17
5.26E-02 | 0.05 0.05 -0.02 -0.19 -0.95 0.05 0.11 -0.18
2.89E-01 | -0.03 -0.31 0.01 0.02 0.08 0.03 0.95 0.02
9.15E-01 | 0.88 0.31 0.01 0.01 0.06 -0.32 0.13 0.01
1.15E+00 | 0.45 -0.77 -0.01 -0.01 -0.02 0.37 -0.25 -0.01
1.03E+00 | -0.13 -0.46 -0.01 -0.02 -0.08 -0.87 -0.11 -0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 82.3065 +/- 0.980357 1
2 2 1 gaussian Sigma keV 9.73730 +/- 1.00838 1
3 3 1 gaussian norm 0.203439 +/- 0.202234E-01 1
4 4 2 powerlaw PhoIndex 1.05677 +/- 0.500580E-01 1
5 5 2 powerlaw norm 1.26687 +/- 0.247310 1
6 6 3 gaussian LineE keV 83.6909 +/- 1.01602 2
7 7 3 gaussian Sigma keV 9.94274 +/- 0.599321 2
8 3 3 gaussian norm 0.203439 = par 3 2
9 8 4 powerlaw PhoIndex 1.05659 +/- 0.480856E-01 2
10 5 4 powerlaw norm 1.26687 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 177.4716 using 168 PHA bins.
Reduced chi-squared = 1.109198 for 160 degrees of freedom
Null hypothesis probability = 0.163
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 80.7212 83.8730 ( -1.58532 , 1.56647 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 82.0601 85.3027 ( -1.63077 , 1.61179 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.326 photons ( 1.5921E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.326 photons ( 1.5976E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae803005010_hxdmkgainhist_tmp/ae803005010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 2860.
No current background
No current correction
Response (RMF) file : ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.673373675574502E+08 2.673434435565800E+08 2.673493936795737E+08 2.673553856787933E+08 2.673612816780239E+08 2.673668496772939E+08 2.674052816724006E+08 2.674114176714746E+08 2.674175216706876E+08 2.674236256699026E+08 2.674296816692439E+08 2.674356736683456E+08 2.674416256675712E+08 2.674474976668079E+08 2.674854776618777E+08 2.674916096610706E+08 2.674977336605142E+08 2.675038575356623E+08 2.675099935348466E+08 2.675159795340666E+08 2.675219616570755E+08 2.675279376565514E+08
=====gti=====
=====redu_chi=====
4.702546
=====best line=====
82.3114 0.988077
=====best sigma=====
9.71288 1.01662
=====norm=====
0.203293 0.202840E-01
=====phoindx=====
1.05661 0.501480E-01
=====pow_norm=====
1.26637 0.248311
=====best line=====
83.6905 1.01187
=====best sigma=====
9.93873 0.824339
=====norm=====
0.203293 par
=====phoindx=====
1.05648 0.481657E-01
=====pow_norm=====
1.26637 par
=====redu_chi=====
1.109200
=====slow error=====
-1.58749 1.56205
=====fast error=====
-1.63046 1.61290
=====area_flux=====
1.326
=====area_flux_f=====
1.326
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
25.19632 25.94688
=====RES_GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 15 1 640 2000 1316.9824 25.19632 0.203293 0.202840E-01 9.71288 1.01662 1.05661 0.501480E-01 1.26637 0.248311 1.326 640 2000 1339.048 25.94688 0.203293 0.202840E-01 9.93873 0.824339 1.05648 0.481657E-01 1.26637 0.248311 1.326 1.109200 0
=====redu_chi=====
21.86411
=====best line=====
124.313 0.607327
=====best sigma=====
19.3655 8.47231
=====norm=====
1.60818 0.310602E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
123.622 0.611713
=====best sigma=====
19.3655 7.97580
=====norm=====
1.60818 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
5.110002
=====area_flux=====
1.440
=====area_flux_f=====
1.429
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
25.19632 25.94688
511ULT:Bad Quality
=====RES_511ULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 15 1 1600 3200 1989.008 25.19632 1.60818 0.310602E-01 309.848 135.55696 9.50000 -1.00000 0.00000 -1.00000 1.440 1600 3200 1977.952 25.94688 1.60818 0.310602E-01 309.848 127.6128 9.50000 -1.00000 0.00000 -1.00000 1.429 5.110002 1
=====redu_chi=====
6.677399
=====best line=====
82.3065 0.980357
=====best sigma=====
9.73730 1.00838
=====norm=====
0.203439 0.202234E-01
=====phoindx=====
1.05677 0.500580E-01
=====pow_norm=====
1.26687 0.247310
=====best line=====
83.6909 1.01602
=====best sigma=====
9.94274 0.599321
=====norm=====
0.203439 par
=====phoindx=====
1.05659 0.480856E-01
=====pow_norm=====
1.26687 par
=====redu_chi=====
1.109198
=====slow error=====
-1.58532 1.56647
=====fast error=====
-1.63077 1.61179
=====area_flux=====
1.326
=====area_flux_f=====
1.326
=====exp=====
2860.
=====exp=====
2860.
=====slow_fast error=====
25.21432 25.94048
=====RES_152GDULT=====
2.673373675574502E+08 2.675324336558288E+08 2860. 15 1 640 2000 1316.904 25.21432 0.203439 0.202234E-01 9.73730 1.00838 1.05677 0.500580E-01 1.26687 0.247310 1.326 640 2000 1339.0544 25.94048 0.203439 0.202234E-01 9.94274 0.599321 1.05659 0.480856E-01 1.26687 0.247310 1.326 1.109198 0
rm -rf ae803005010_xspec*.log xspec*.xcm xautosav.xcm ae803005010_hxdmkgainhist_tmp/ae803005010dmy.rsp
rm -rf ae803005010_hxdmkgainhist_tmp
-> hxdmkgainhist_gso successful for ae803005010hxd_3_wel.sff.input_name,f,a,"ae803005010hxd_3_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae803005010hxd_0.hk",,,"HK file name" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" process_id,s,a,"ae803005010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_pin
FFF= ae803005010hxd_3_wel.sff, HK= ae803005010hxd_0.hk TSTART 2.675295736561315E+08, TSOP 2.675331016556287E+08-> hxdmkgainhist_pin successful for ae803005010hxd_3_wel.sff.
read_iomode,s,h,"readonly",,,"HXD event fits input I/O mode : always readonly" gtimode,b,h,y,,,"HXD event fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?" hxdmkgainhist_origin,s,a,"ISAS/JAXA",,,"ORIGIN (ISAS/GSFC)" input_name,fr,a,"ae803005010hxd_3_wel.sff",,,"HXD event fits file name ?" phaextractor_mode,b,a,n,,,"PHA Extractor Mode : yes or no" ghfwrite_mode,b,a,y,,,"GHF FITS write Mode : yes or no" phaextractor_base_name,s,a,"",,,"PHA base name in PHA extractor mode" phaextractor_gti_list,f,a,"",,,"GTI file list in PHA extractor mode" phaextractor_extract_gso,b,h,y,,,"Extract GSO PHA or not : yes or no " phaextractor_extract_pin,b,h,n,,,"Extract PIN PHA or not : yes or no " phaextractor_gso_detchan,i,h,256,,,"Extract GSO Channel" phaextractor_pin_detchan,i,h,256,,,"Extract PIN Channel" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" gso_fitlog_name,f,a,"@hxd_gso_ghf.list",,,"HXD gso fitlog file name" valid_date,s,ql,"2008-07-04",,,"Valid Date (YYYY-MM-DD)for Gain History Files" valid_time,s,a,"16:13:37",,,"Valid Time (hh:mm:ss) for Gain History Files" pin_gainhist_name,f,a,"!ae803005010hxd_3_pin.ghf",,,"HXD pin gainhistory file name" gso_gainhist_name,f,a,"!ae803005010hxd_3_gso.ghf",,,"HXD gso gainhistory file name" gainhistory_iomode,s,h,"no",,,"Add result to gainhistory file: yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDmkgainhist version 2.0.1
-- Functions by HXD team --
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdeventFitsToBnkUtil version 2.0.0
hxdFitsHeaderUtil version 2.0.3
hxdcaldbUtil version 0.7.1
gain history script version 1.3.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmkgainhistWriteGHF version 0.4.5
[ 4] HXDmkgainhistWritePHA version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
|
[ 1] HXDeventFitsRead version 2.0.2
| OK: 1/1
[ 2] HXDleapsecInit version 2.0.1
QUIT: 1 | OK: 1/1
<--- [ 3] HXDmkgainhistWriteGHF version 0.4.5
| OK: 0/1
[ 4] HXDmkgainhistWritePHA version 2.0.0
| OK: 0/0
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 78/5000
buffer size : 120000
buffer used : 11008
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 6 1 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 0 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 2 0 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 0 SINGLE
HXD:PIL:ghfwrite_mode 4 4 1 0 SINGLE
HXD:PIL:pin_fitlog_name 256 11 1 0 SINGLE
HXD:PIL:gso_fitlog_list 256 17 1 0 SINGLE
HXD:PIL:gso_gdalph_name 256 14 1 0 SINGLE
HXD:PIL:gso_annihi_name 256 15 1 0 SINGLE
HXD:PIL:gso_gd150k_name 256 17 1 0 SINGLE
HXD:PIL:valid_date 256 8 2 0 SINGLE
HXD:PIL:valid_time 256 0 0 0 SINGLE
HXD:PIL:pin_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gso_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gainhistory_iomode 256 2 1 0 SINGLE
HXDeventFitsRead:IROW 4 4 1 0 SINGLE
HXD:WEL:EV_TIME 8 8 1 0 SINGLE
HXD:WEL:MTI 4 4 1 0 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 1 0 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 1 0 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 1 0 SINGLE
HXD:WEL:GRADE_RESERV 4 4 1 0 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 1 0 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 1 0 SINGLE
HXD:WEL:DET_TYPE 4 4 1 0 SINGLE
HXD:WEL:PI_FAST 4 4 1 0 SINGLE
HXD:WEL:PI_SLOW 4 4 1 0 SINGLE
HXD:WEL:PI_PIN 16 16 1 0 SINGLE
HXD:WEL:UPI_FAST 8 8 1 0 SINGLE
HXD:WEL:UPI_SLOW 8 8 1 0 SINGLE
HXD:WEL:UPI_PIN 32 32 1 0 SINGLE
HXD:WEL:PIN_ID 4 4 1 0 SINGLE
HXD:WEL:UNITID 4 4 1 0 SINGLE
HXD:WEL:LENGTH_CHK 4 4 1 0 SINGLE
HXD:WEL:WELTIME 4 4 1 0 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 1 0 SINGLE
HXD:WEL:TRIG 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 1 0 SINGLE
HXD:WEL:PHA_FAST 4 4 1 0 SINGLE
HXD:WEL:PHA_SLOW 4 4 1 0 SINGLE
HXD:WEL:PHA_PIN 16 16 1 0 SINGLE
HXD:WEL:PACKET_AETIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 0 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDeventFitsRead:NROW 4 4 1 0 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 0 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 1 0 SINGLE
HXD:WEL:EVENT 204 204 1 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 0.014 0.003 0.017 13.39
[ 2] HXDleapsecInit 0.004 0.000 0.004 3.15
[ 3] HXDmkgainhistWriteGHF 0.061 0.004 0.065 51.18
[ 4] HXDmkgainhistWritePHA 0.003 0.001 0.004 3.15
(others) 0.029 0.008 0.037 29.13
--------------------------------------------------------------------------
TOTAL 0.111 0.016 0.127 100.00
-> hxdmkgainhist successful for ae803005010hxd_3_wel.sff.read_iomode,s,h,"create",,,"HXD event fits input I/O mode : overwrite or create ?" time_change,b,h,n,,,"HXD event fits update TIME : yes or no ?" grade_change,b,h,n,,,"HXD event fits update GRADE : yes or no ?" pi_pmt_change,b,h,y,,,"HXD event fits update PI_FAST PI_SLOW : yes or no ?" pi_pin_change,b,h,y,,,"HXD event fits update PI_PIN0 PI_PIN1 PI_PIN2 PI_PIN3: yes or no ?" gtimode,b,h,n,,,"HXD event fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?" input_name,f,a,"ae803005010hxd_3_wel.sff",,,"HXD event fits file name ?" create_name,f,h,"hxdpi_out.evt",,,"HXD event fits created file name ?" hklist_name,f,a,"@hxdpi_hk.list",,,"HXD HK fits file list name ?" hxd_gsoght_fname,f,a,"CALDB",,,"HXD GSO gain history table name ?" hxd_gsolin_fname,f,a,"CALDB",,,"HXD GSO Calibration file name ?" hxd_pinghf_fname,f,a,"CALDB",,,"HXD PIN gain history file name ?" hxd_pinlin_fname,f,a,"CALDB",,,"HXD PIN Calibration file name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdpi
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDrndInit version 0.2.0
HXDgethkInit version 0.1.0
HXDpi version 2.1.3
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdpiUtil version 2.1.4
hxdeventFitsUtil version 2.0.4
hxdtableFitsUtil version 0.0.9
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
hxdcaldbUtil version 0.7.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDrndInit version 0.2.0
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDpiFITS version 2.1.3
[ 5] HXDpi version 2.1.3
[ 6] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
aste_gethk-2.5: reading filelist 'hxdpi_hk.list'
1: ae803005010hxd_0.hk
2: ae803005010.ehk
HXDpi_init: time duration = 267529573.532310 -- 267533117.531780
Opening GSO calibration files OK
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TEMP_W10_CAL' at hdu=2, col=111 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W11_CAL' at hdu=2, col=112 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W12_CAL' at hdu=2, col=113 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W13_CAL' at hdu=2, col=114 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W20_CAL' at hdu=2, col=115 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W21_CAL' at hdu=2, col=116 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W22_CAL' at hdu=2, col=117 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W23_CAL' at hdu=2, col=118 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W00_CAL' at hdu=2, col=119 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W01_CAL' at hdu=2, col=120 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W02_CAL' at hdu=2, col=121 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W03_CAL' at hdu=2, col=122 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W30_CAL' at hdu=2, col=123 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W31_CAL' at hdu=2, col=124 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W32_CAL' at hdu=2, col=125 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W33_CAL' at hdu=2, col=126 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T10_CAL' at hdu=2, col=127 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T12_CAL' at hdu=2, col=128 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T14_CAL' at hdu=2, col=129 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T21_CAL' at hdu=2, col=130 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T23_CAL' at hdu=2, col=131 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W2_CAL' at hdu=2, col=132 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P1_CAL' at hdu=2, col=133 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T1_CAL' at hdu=2, col=134 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T00_CAL' at hdu=2, col=135 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T02_CAL' at hdu=2, col=136 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T04_CAL' at hdu=2, col=137 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T31_CAL' at hdu=2, col=138 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T33_CAL' at hdu=2, col=139 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W0_CAL' at hdu=2, col=140 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P0_CAL' at hdu=2, col=141 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T3_CAL' at hdu=2, col=142 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP4_CAL' at hdu=2, col=143 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP3_CAL' at hdu=2, col=144 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY4_CAL' at hdu=2, col=145 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY3_CAL' at hdu=2, col=146 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM3_CAL' at hdu=2, col=147 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM4_CAL' at hdu=2, col=148 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR3_CAL' at hdu=2, col=149 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CENTER_CAL' at hdu=2, col=150 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP2_CAL' at hdu=2, col=151 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP1_CAL' at hdu=2, col=152 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY2_CAL' at hdu=2, col=153 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY1_CAL' at hdu=2, col=154 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM1_CAL' at hdu=2, col=155 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM2_CAL' at hdu=2, col=156 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR1_CAL' at hdu=2, col=157 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR2_CAL' at hdu=2, col=158 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'T_SAA_HXD' at hdu=2, col=29 in 'ae803005010.ehk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 434811
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 434810/434811
[ 2] HXDrndInit version 0.2.0
| OK: 434810/434810
[ 3] HXDgethkInit version 0.1.0
| OK: 434810/434810
[ 4] HXDpiFITS version 2.1.3
| OK: 434810/434810
[ 5] HXDpi version 2.1.3
| OK: 434810/434810
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 434810/434810
GET: 434810
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 80/5000
buffer size : 120000
buffer used : 16048
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 13 1 3 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 3 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdpi_yn 4 4 2 3 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 3 SINGLE
HXD:PIL:hxd_gsoght_fname 256 112 1 3 SINGLE
HXD:PIL:hxd_gsolin_fname 256 112 1 3 SINGLE
HXD:PIL:hxd_pinghf_fname 256 112 1 3 SINGLE
HXD:PIL:hxd_pinlin_fname 256 112 1 3 SINGLE
HXD:PIL:CALDB_TYPE:gsoght 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:gsolin 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:pinghf 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:pinlin 4 4 1 3 SINGLE
HXDeventFitsRead:IROW 4 4 434810 0 SINGLE
HXD:WEL:EV_TIME 8 8 434810 434810 SINGLE
HXD:WEL:MTI 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 434810 434810 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_RESERV 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 434810 434810 SINGLE
HXD:WEL:DET_TYPE 4 4 434810 434810 SINGLE
HXD:WEL:PI_FAST 4 4 869620 434810 SINGLE
HXD:WEL:PI_SLOW 4 4 869620 434810 SINGLE
HXD:WEL:PI_PIN 16 16 869620 434810 SINGLE
HXD:WEL:UPI_FAST 8 8 869620 434810 SINGLE
HXD:WEL:UPI_SLOW 8 8 869620 434810 SINGLE
HXD:WEL:UPI_PIN 32 32 869620 434810 SINGLE
HXD:WEL:PIN_ID 4 4 434810 434810 SINGLE
HXD:WEL:UNITID 4 4 434810 434810 SINGLE
HXD:WEL:LENGTH_CHK 4 4 434810 434810 SINGLE
HXD:WEL:WELTIME 4 4 434810 434810 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 434810 434810 SINGLE
HXD:WEL:TRIG 4 4 434810 434810 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 434810 434810 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 434810 434810 SINGLE
HXD:WEL:PHA_FAST 4 4 434810 434810 SINGLE
HXD:WEL:PHA_SLOW 4 4 434810 434810 SINGLE
HXD:WEL:PHA_PIN 16 16 434810 434810 SINGLE
HXD:WEL:PACKET_AETIME 8 8 434810 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 434810 868980 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 434810 434810 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 1 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 14 1 1 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 2 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 4 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDeventFitsRead:NROW 4 4 1 1 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 1 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 1 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 434810 869620 SINGLE
HXD:WEL:EVENT 204 204 869620 869620 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXDpi:GSO_GHT_NAME 2000 2000 1 1 SINGLE
HXDpi:GSO_LIN_NAME 2000 2000 1 1 SINGLE
HXDpi:PIN_GHF_NAME 2000 2000 1 1 SINGLE
HXDpi:PIN_LIN_NAME 2000 2000 1 1 SINGLE
HXDpi:HKDATA 384 384 792 434170 SINGLE
HXDpi:EHKDATA 136 136 792 434170 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 9.765 0.640 10.404 37.06
[ 2] HXDrndInit 0.146 0.284 0.430 1.53
[ 3] HXDgethkInit 0.094 0.259 0.353 1.26
[ 4] HXDpiFITS 1.239 1.142 2.381 8.48
[ 5] HXDpi 3.497 0.269 3.766 13.42
[ 6] HXD2ndeventFitsWrite 9.402 1.314 10.715 38.17
(others) 0.018 0.008 0.026 0.09
--------------------------------------------------------------------------
TOTAL 24.160 3.915 28.076 100.00
-> hxdpi successful for ae803005010hxd_3_wel.sff.
read_iomode,s,h,"create",,,"HXD event fits input I/O mode : overwrite or create ?"
time_change,b,h,n,,,"HXD event fits update TIME : yes or no ?"
grade_change,b,h,y,,,"HXD event fits update GRADE : yes or no ?"
pi_pmt_change,b,h,n,,,"HXD event fits update PI_FAST PI_SLOW : yes or no ?"
pi_pin_change,b,h,n,,,"HXD event fits update PI_PIN0 PI_PIN1 PI_PIN2 PI_PIN3: yes or no ?"
gtimode,b,h,n,,,"HXD event fits using GTI : yes or no ?"
gti_time,s,h,"S_TIME",,,"HXD event fits using time : TIME or S_TIME ?"
input_name,f,a,"ae803005010hxd_3_wel.sff",,,"HXD event fits file name ?"
create_name,f,a,"hxdgrade_out.evt",,,"HXD event fits created file name ?"
leapfile,f,a,"CALDB;$ENV{LHEA_DATA}/leapsec.fits",,,"leapsec file name"
hxdgrade_psdsel_fname,f,a,"CALDB",,,"File name for the GRADE PSD Selection."
hxdgrade_pinthres_fname,f,a,"CALDB",,,"File name for the GRADE PIN Threshold."
hxdgrade_psdsel_criteria,r,h,2.1,,,"PSD selection criteria."
use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?"
num_event,i,h,-1,,,"number of event (-1=all,0=exit)"
event_freq,i,h,100000,,,"Event number printout frequency"
anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)"
anl_profile,b,h,yes,,,"Enable ANL module profiling"
chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)"
mode,s,h,"hl",,,""
-> stdout output from hxdgrade
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDgrade version 2.0.4
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
hxdcaldbUtil version 0.7.1
hxdgradeUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgradeFITS version 2.0.4
[ 4] HXDgrade version 2.0.3
[ 5] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 434811
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 434810/434811
[ 2] HXDleapsecInit version 2.0.1
| OK: 434810/434810
[ 3] HXDgradeFITS version 2.0.4
| OK: 434810/434810
[ 4] HXDgrade version 2.0.3
| OK: 434810/434810
[ 5] HXD2ndeventFitsWrite version 2.0.4
| OK: 434810/434810
GET: 434810
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 75/5000
buffer size : 120000
buffer used : 13008
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 16 1 3 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 3 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdgrade_yn 4 4 2 3 SINGLE
HXD:PIL:hxdgrade_psdsel_fname 256 112 1 3 SINGLE
HXD:PIL:hxdgrade_pinthres_fname 256 112 1 3 SINGLE
HXD:PIL:hxdgrade_psdsel_criteria 8 8 1 0 SINGLE
HXD:PIL:CALDB_TYPE:pinthr 4 4 1 3 SINGLE
HXD:PIL:CALDB_TYPE:psdsel 4 4 1 3 SINGLE
HXDeventFitsRead:IROW 4 4 434810 0 SINGLE
HXD:WEL:EV_TIME 8 8 434810 434810 SINGLE
HXD:WEL:MTI 4 4 434810 434810 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 869620 434810 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 869620 434810 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 869620 434810 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 869620 434810 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 869620 434810 SINGLE
HXD:WEL:GRADE_RESERV 4 4 869620 434810 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 869620 434810 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 869620 434810 SINGLE
HXD:WEL:DET_TYPE 4 4 869620 434810 SINGLE
HXD:WEL:PI_FAST 4 4 434810 434810 SINGLE
HXD:WEL:PI_SLOW 4 4 434810 434810 SINGLE
HXD:WEL:PI_PIN 16 16 434810 434810 SINGLE
HXD:WEL:UPI_FAST 8 8 434810 434810 SINGLE
HXD:WEL:UPI_SLOW 8 8 434810 434810 SINGLE
HXD:WEL:UPI_PIN 32 32 434810 434810 SINGLE
HXD:WEL:PIN_ID 4 4 869620 434810 SINGLE
HXD:WEL:UNITID 4 4 434810 434810 SINGLE
HXD:WEL:LENGTH_CHK 4 4 434810 434810 SINGLE
HXD:WEL:WELTIME 4 4 434810 434810 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 434810 434810 SINGLE
HXD:WEL:TRIG 4 4 434810 434810 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 434810 434810 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 434810 434810 SINGLE
HXD:WEL:PHA_FAST 4 4 434810 434810 SINGLE
HXD:WEL:PHA_SLOW 4 4 434810 434810 SINGLE
HXD:WEL:PHA_PIN 16 16 434810 434810 SINGLE
HXD:WEL:PACKET_AETIME 8 8 434810 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 434810 434810 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 434810 434810 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 1 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 17 1 1 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 2 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 4 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDeventFitsRead:NROW 4 4 1 1 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 1 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 1 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 434810 434810 SINGLE
HXD:WEL:EVENT 204 204 434810 434810 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgrade:PSDSEL_FILE_NAME 2000 2000 1 1 SINGLE
HXDgrade:PINTHRES_FILE_NAME 2000 2000 1 1 SINGLE
HXDgrade:PSDSEL_CRITERIA 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 9.638 0.344 9.981 43.83
[ 2] HXDleapsecInit 0.149 0.248 0.397 1.74
[ 3] HXDgradeFITS 0.117 0.230 0.347 1.52
[ 4] HXDgrade 1.132 0.239 1.371 6.02
[ 5] HXD2ndeventFitsWrite 9.293 1.360 10.652 46.78
(others) 0.014 0.011 0.025 0.11
--------------------------------------------------------------------------
TOTAL 20.342 2.432 22.774 100.00
-> hxdgrade successful for ae803005010hxd_3_wel.sff.gtimode,b,h,y,,,"HXD scl fits using GTI : yes or no ?" gti_time,s,h,"SCL_AETIME",,,"HXD scl fits using time : TIME or SCL_AETIME ?" input_name,f,a,"ae803005010hxd_0_proc.hk",,,"HXD scl fits file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" time_convert_mode,i,h,4,,,"HxdTime2aetime mode ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdscltime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
HXDsclFitsRead version 0.4.7
HXDgethkInit version 0.1.0
HXDleapsecInit version 2.0.1
HXDfsclTime version 0.3.8
HXD2ndsclFitsWrite version 0.2.1
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDsclFitsRead version 0.4.7
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDleapsecInit version 2.0.1
[ 4] HXDfsclTimeFITS version 0.3.6
[ 5] HXDfsclTime version 0.3.8
[ 6] HXD2ndsclFitsWrite version 0.2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
Event... 100001 (100000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 181209
QUIT: 1 |
<--- [ 1] HXDsclFitsRead version 0.4.7
| OK: 181208/181209
[ 2] HXDgethkInit version 0.1.0
| OK: 181208/181208
[ 3] HXDleapsecInit version 2.0.1
| OK: 181208/181208
[ 4] HXDfsclTimeFITS version 0.3.6
| OK: 181208/181208
[ 5] HXDfsclTime version 0.3.8
| OK: 181208/181208
[ 6] HXD2ndsclFitsWrite version 0.2.1
| OK: 181208/181208
GET: 181208
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 38/5000
buffer size : 120000
buffer used : 7040
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:input_name 256 24 1 2 SINGLE
HXD:ftools:hxdscltime_yn 4 4 2 3 SINGLE
HXD:PIL:tim_filename 256 15 1 2 SINGLE
HXD:PIL:time_convert_mode 4 4 1 2 SINGLE
HXD:SCL:PACKET_AETIME 8 8 181208 0 SINGLE
HXD:SCL:PACKET_S_TIME 8 8 181208 362412 SINGLE
HXD:SCL:PACKET_SEC_HEADER 4 4 181208 181204 SINGLE
HXD:SCL:EV_TIME 8 8 181208 181208 SINGLE
HXD:SCL:TIME 4 4 181208 181204 SINGLE
HXD:SCL:BOARD 4 4 181208 181204 SINGLE
HXDsclFitsRead:IROW 4 4 181208 181208 SINGLE
HXDsclFitsRead:FILE_P 4 4 1 1 SINGLE
HXDsclFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDsclFitsRead:NROW 4 4 1 1 SINGLE
HXDsclFitsRead:TSTART 8 8 1 1 SINGLE
HXDsclFitsRead:TSTOP 8 8 1 1 SINGLE
HXDsclFitsRead:HK:TBEGIN 8 8 1 1 SINGLE
HXDsclFitsRead:HK:TEND 8 8 1 1 SINGLE
HXDsclFitsRead:SYS:TBEGIN 8 8 1 1 SINGLE
HXDsclFitsRead:SYS:TEND 8 8 1 1 SINGLE
HXDsclFitsRead:EV_TIME:CHANGE 4 0 0 0 SINGLE
HXDsclFitsRead:GRADE:CHANGE 4 0 0 0 SINGLE
HXDsclFitsRead:PI_PMT:CHANGE 4 0 0 0 SINGLE
HXDsclFitsRead:PI_PIN:CHANGE 4 0 0 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 226512 362416 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDfsclTime:HXD_SYS_LATCH_TI 4 4 22650 22650 SINGLE
HXDfsclTime:HXD_AE_TM_LATCH_TM 4 4 22650 22650 SINGLE
HXDfsclTime:HXD_SYS_TIME 8 8 22650 0 SINGLE
HXDfsclTime:HXD_HK_TIME 8 8 22650 0 SINGLE
HXDfsclTime:HXD_WPU_CLK_RATE 4 4 22650 22650 SINGLE
HXDfsclTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfsclTime:TIME_INVALID 4 4 181208 0 SINGLE
HXDfsclTime:EV_TIME_TLM 8 8 181204 0 SINGLE
HXDfsclTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDsclFitsRead 0.706 0.212 0.918 38.52
[ 2] HXDgethkInit 0.047 0.091 0.138 5.79
[ 3] HXDleapsecInit 0.050 0.094 0.144 6.04
[ 4] HXDfsclTimeFITS 0.163 0.134 0.297 12.46
[ 5] HXDfsclTime 0.522 0.086 0.608 25.51
[ 6] HXD2ndsclFitsWrite 0.164 0.095 0.259 10.87
(others) 0.012 0.007 0.019 0.80
--------------------------------------------------------------------------
TOTAL 1.664 0.719 2.383 100.00
-> hxdscltime successful for ae803005010hxd_0.hk.read_iomode,s,h,"create",,,"HXD wam fits input I/O mode : overwrite or create ?" time_change,b,h,y,,,"HXD wam fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD wam fits update PI : yes or no ?" quality_change,b,h,n,,,"HXD wam fits update QUALITY : yes or no ?" gtimode,b,h,y,,,"HXD wam fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,fr,a,"ae803005010hxd_1_wam.fff",,,"HXD wam fits file name ?" create_name,f,a,"hxdwamtime_out.evt",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" time_convert_mode,i,h,4,,,"HxdTime2aetime mode ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwamtime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDrndInit version 0.2.0
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDftrnTime version 0.3.3
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDleapsecInit version 2.0.1
[ 4] HXDftrnTimeFITS version 0.3.3
[ 5] HXDftrnTime version 0.3.3
[ 6] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 411841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 411840/411841
[ 2] HXDgethkInit version 0.1.0
| OK: 411840/411840
[ 3] HXDleapsecInit version 2.0.1
| OK: 411840/411840
[ 4] HXDftrnTimeFITS version 0.3.3
| OK: 411840/411840
[ 5] HXDftrnTime version 0.3.3
| OK: 411840/411840
[ 6] HXD2ndtrnFitsWrite version 0.3.1
| OK: 411840/411840
GET: 411840
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 70/5000
buffer size : 120000
buffer used : 10688
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 2 4 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 3 SINGLE
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 6 1 3 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 18 1 3 SINGLE
HXD:PIL:tim_filename 256 15 1 3 SINGLE
HXD:PIL:time_convert_mode 4 4 1 3 SINGLE
HXD:TRN:EV_TIME 8 8 823680 411840 SINGLE
HXD:TRN:PACKET_AETIME 8 8 411840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 411840 1235360 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 411840 823600 SINGLE
HXD:TRB:IBLOCK 4 4 411840 823600 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 411840 411840 SINGLE
HXD:TRN:BOARD 4 4 411840 823600 SINGLE
HXD:TRN:BLOCK 4 4 411840 823600 SINGLE
HXD:TRN:RDBIN 4 4 411840 411840 SINGLE
HXD:TRN:TBLID 4 4 411840 411840 SINGLE
HXD:TRN:DATA_SIZE 4 4 411840 411840 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 411840 411840 SINGLE
HXD:TRH:BLOCK 4 4 411840 411840 SINGLE
HXD:TRH:TIME 4 4 411840 823600 SINGLE
HXD:TRH:GB_TIME 4 4 411840 411840 SINGLE
HXD:TRH:GB_FLG 4 4 411840 411840 SINGLE
HXD:TRH:TIME_MODE 4 4 411840 823600 SINGLE
HXD:TRH:RBM 4 4 411840 411840 SINGLE
HXD:TRH:GB_FRZ 4 4 411840 411840 SINGLE
HXD:TRH:DT_MODE 4 4 411840 411840 SINGLE
HXD:TRH:SUMLD_MODE 4 4 411840 411840 SINGLE
HXD:TRH:BOARD 4 4 411840 411840 SINGLE
HXD:TRH:GB_TRG 4 4 411840 411840 SINGLE
HXD:TRB:PI 216 216 411840 411840 SINGLE
HXD:TRB:PH 216 216 411840 411840 SINGLE
HXD:TRB:OVER_FLOW 4 4 411840 411840 SINGLE
HXD:TRB:PSEUDO 4 4 411840 411840 SINGLE
HXD:TRB:TRN_ANT 20 20 411840 411840 SINGLE
HXD:TRB:UD 4 4 411840 411840 SINGLE
HXD:TRB:DEAD_TIME 4 4 411840 411840 SINGLE
HXD:TRB:SUM_LD 4 4 411840 411840 SINGLE
HXD:TRB:WELL_ANT 16 16 411840 411840 SINGLE
HXD:TRN:TRN_QUALITY 4 4 411840 411840 SINGLE
HXDtrnFitsRead:IROW 4 4 411840 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 19 1 1 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 4 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDtrnFitsRead:NROW 4 4 1 1 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 433622 1235520 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDftrnTime:HXD_SYS_LATCH_TI 4 4 10851 10851 SINGLE
HXDftrnTime:HXD_AE_TM_LATCH_TM 4 4 10851 10851 SINGLE
HXDftrnTime:HXD_SYS_TIME 8 8 10851 0 SINGLE
HXDftrnTime:HXD_HK_TIME 8 8 10851 0 SINGLE
HXDftrnTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDftrnTime:TIME_INVALID 4 4 411840 0 SINGLE
HXDftrnTime:TIME_RESOLUTION 8 8 1 1 SINGLE
HXDftrnTime:TIME_MODE 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 9.269 1.475 10.743 42.92
[ 2] HXDgethkInit 0.134 0.242 0.376 1.50
[ 3] HXDleapsecInit 0.098 0.210 0.308 1.23
[ 4] HXDftrnTimeFITS 0.252 0.285 0.537 2.14
[ 5] HXDftrnTime 1.174 0.241 1.415 5.65
[ 6] HXD2ndtrnFitsWrite 9.434 2.197 11.630 46.46
(others) 0.015 0.008 0.023 0.09
--------------------------------------------------------------------------
TOTAL 20.375 4.657 25.032 100.00
-> hxdwamtime successful for ae803005010hxd_1_wam.sff.read_iomode,s,h,"readonly",,,"HXD trn fits input I/O mode : readonly or overwrite or create ?" create_name,f,h,"NONE",,,"HXD wam fits created file name ?" gtimode,b,h,n,,,"HXD trn fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,fr,a,"ae803005010hxd_1_wam.sff",,,"HXD trn fits file name ?" trn_fitlog_name,f,a,"wamfit.log",,,"HXD trn fitlog file name" trn_gainhist_name,f,a,"ae803005010hxd_1_wam.ghf",,,"HXD WAM gainhistory fits file name" gainhistory_iomode,b,h,n,,,"Add result to gainhistory : yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkwamgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDmktrngainhist version 0.1.2
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdtrnFitsToBnkUtil version 0.2.1
hxdFitsHeaderUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmktrngainhist version 0.1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 411841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 411840/411841
[ 2] HXDleapsecInit version 2.0.1
| OK: 411840/411840
[ 3] HXDmktrngainhist version 0.1.2
| OK: 411840/411840
GET: 411840
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 59/5000
buffer size : 120000
buffer used : 8288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:TRN:EV_TIME 8 8 411840 411840 SINGLE
HXD:TRN:PACKET_AETIME 8 8 411840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 411840 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 411840 0 SINGLE
HXD:TRB:IBLOCK 4 4 411840 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 411840 0 SINGLE
HXD:TRN:BOARD 4 4 411840 0 SINGLE
HXD:TRN:BLOCK 4 4 411840 0 SINGLE
HXD:TRN:RDBIN 4 4 411840 0 SINGLE
HXD:TRN:TBLID 4 4 411840 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 411840 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 411840 0 SINGLE
HXD:TRH:BLOCK 4 4 411840 0 SINGLE
HXD:TRH:TIME 4 4 411840 0 SINGLE
HXD:TRH:GB_TIME 4 4 411840 0 SINGLE
HXD:TRH:GB_FLG 4 4 411840 0 SINGLE
HXD:TRH:TIME_MODE 4 4 411840 0 SINGLE
HXD:TRH:RBM 4 4 411840 0 SINGLE
HXD:TRH:GB_FRZ 4 4 411840 0 SINGLE
HXD:TRH:DT_MODE 4 4 411840 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 411840 0 SINGLE
HXD:TRH:BOARD 4 4 411840 0 SINGLE
HXD:TRH:GB_TRG 4 4 411840 0 SINGLE
HXD:TRB:PI 216 216 411840 0 SINGLE
HXD:TRB:PH 216 216 411840 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 411840 0 SINGLE
HXD:TRB:PSEUDO 4 4 411840 0 SINGLE
HXD:TRB:TRN_ANT 20 20 411840 0 SINGLE
HXD:TRB:UD 4 4 411840 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 411840 0 SINGLE
HXD:TRB:SUM_LD 4 4 411840 0 SINGLE
HXD:TRB:WELL_ANT 16 16 411840 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 411840 0 SINGLE
HXDtrnFitsRead:IROW 4 4 411840 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 0 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:NROW 4 4 1 0 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 411840 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.549 0.346 8.895 92.01
[ 2] HXDleapsecInit 0.147 0.242 0.389 4.02
[ 3] HXDmktrngainhist 0.165 0.198 0.363 3.75
(others) 0.008 0.012 0.020 0.21
--------------------------------------------------------------------------
TOTAL 8.869 0.798 9.667 100.00
-> hxdmkwamgainhist successful for ae803005010hxd_1_wam.sff.read_iomode,s,h,"create",,,"HXD trn fits input I/O mode : overwrite or create ?" time_change,b,h,n,,,"HXD trn fits update TIME : yes or no ?" pi_change,b,h,y,,,"HXD trn fits update PI : yes or no ?" quality_change,b,h,n,,,"HXD trn fits update QUALITY : yes or no ?" gtimode,b,h,n,,,"HXD trn fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,f,a,"ae803005010hxd_1_wam.sff",,,"HXD trn fits file name ?" create_name,f,h,"hxdwampi_out.evt",,,"HXD trn fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD (none).hk fits file name ?" trn_bintbl_name,f,a,"CALDB",,,"HXD TRN rebin_table_file name ?" trn_gainhist_name,fr,a,"ae803005010hxd_1_wam.ghf",,,"HXD TRN gain history fie name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwampi
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.1
HXDtrnFitsRead version 0.4.2
HXDgethkInit version 0.1.0
HXDrndInit version 0.2.0
HXDtrnpi version 2.0.0
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdtrnpiUtil version 0.0.4
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDtrnpi version 2.0.0
[ 4] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 411841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 411840/411841
[ 2] HXDgethkInit version 0.1.0
| OK: 411840/411840
[ 3] HXDtrnpi version 2.0.0
| OK: 411840/411840
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 411840/411840
GET: 411840
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 61/5000
buffer size : 120000
buffer used : 6816
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwampi_yn 4 4 2 3 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 3 SINGLE
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 16 1 3 SINGLE
HXD:PIL:trn_bintbl_name 256 112 1 3 SINGLE
HXD:PIL:trn_gainhist_name 256 24 1 3 SINGLE
HXD:PIL:CALDB_TYPE:wampht 4 4 1 3 SINGLE
HXD:TRN:EV_TIME 8 8 411840 823680 SINGLE
HXD:TRN:PACKET_AETIME 8 8 411840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 411840 411840 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 411840 411840 SINGLE
HXD:TRB:IBLOCK 4 4 411840 411840 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 411840 411840 SINGLE
HXD:TRN:BOARD 4 4 411840 411840 SINGLE
HXD:TRN:BLOCK 4 4 411840 411840 SINGLE
HXD:TRN:RDBIN 4 4 411840 823680 SINGLE
HXD:TRN:TBLID 4 4 411840 411840 SINGLE
HXD:TRN:DATA_SIZE 4 4 411840 411840 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 411840 411840 SINGLE
HXD:TRH:BLOCK 4 4 411840 411840 SINGLE
HXD:TRH:TIME 4 4 411840 411840 SINGLE
HXD:TRH:GB_TIME 4 4 411840 411840 SINGLE
HXD:TRH:GB_FLG 4 4 411840 411840 SINGLE
HXD:TRH:TIME_MODE 4 4 411840 411840 SINGLE
HXD:TRH:RBM 4 4 411840 411840 SINGLE
HXD:TRH:GB_FRZ 4 4 411840 411840 SINGLE
HXD:TRH:DT_MODE 4 4 411840 411840 SINGLE
HXD:TRH:SUMLD_MODE 4 4 411840 411840 SINGLE
HXD:TRH:BOARD 4 4 411840 823680 SINGLE
HXD:TRH:GB_TRG 4 4 411840 411840 SINGLE
HXD:TRB:PI 216 216 823680 411840 SINGLE
HXD:TRB:PH 216 216 411840 823680 SINGLE
HXD:TRB:OVER_FLOW 4 4 411840 411840 SINGLE
HXD:TRB:PSEUDO 4 4 411840 411840 SINGLE
HXD:TRB:TRN_ANT 20 20 411840 411840 SINGLE
HXD:TRB:UD 4 4 411840 411840 SINGLE
HXD:TRB:DEAD_TIME 4 4 411840 411840 SINGLE
HXD:TRB:SUM_LD 4 4 411840 411840 SINGLE
HXD:TRB:WELL_ANT 16 16 411840 411840 SINGLE
HXD:TRN:TRN_QUALITY 4 4 411840 411840 SINGLE
HXDtrnFitsRead:IROW 4 4 411840 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 17 1 1 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 4 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDtrnFitsRead:NROW 4 4 1 1 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 411840 411840 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.993 1.022 10.014 44.72
[ 2] HXDgethkInit 0.123 0.239 0.362 1.62
[ 3] HXDtrnpi 0.389 0.207 0.596 2.66
[ 4] HXD2ndtrnFitsWrite 9.574 1.825 11.398 50.90
(others) 0.013 0.009 0.022 0.10
--------------------------------------------------------------------------
TOTAL 19.091 3.301 22.393 100.00
-> hxdwampi successful for ae803005010hxd_1_wam.sff.read_iomode,s,h,"create",,,"HXD trn fits input I/O mode : overwrite or create ?" time_change,b,h,n,,,"HXD trn fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD trn fits update PI : yes or no ?" quality_change,b,h,y,,,"HXD trn fits update QUALITY : yes or no ?" gtimode,b,h,n,,,"HXD trn fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,f,a,"ae803005010hxd_1_wam.sff",,,"HXD trn fits file name ?" create_name,f,h,"hxdwamgrade_out.evt",,,"HXD trn fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD (none).hk fits file name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwamgrade
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDrndInit version 0.2.0
HXDgethkInit version 0.1.0
HXDtrngrade version 0.1.0
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdtrngradeUtil version 0.0.2
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDtrngrade version 0.1.0
[ 4] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 411841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 411840/411841
[ 2] HXDgethkInit version 0.1.0
| OK: 411840/411840
[ 3] HXDtrngrade version 0.1.0
| OK: 411840/411840
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 411840/411840
GET: 411840
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 58/5000
buffer size : 120000
buffer used : 6288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 2 3 SINGLE
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 19 1 3 SINGLE
HXD:TRN:EV_TIME 8 8 411840 411840 SINGLE
HXD:TRN:PACKET_AETIME 8 8 411840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 411840 411840 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 411840 411840 SINGLE
HXD:TRB:IBLOCK 4 4 411840 411840 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 411840 411840 SINGLE
HXD:TRN:BOARD 4 4 411840 411840 SINGLE
HXD:TRN:BLOCK 4 4 411840 411840 SINGLE
HXD:TRN:RDBIN 4 4 411840 411840 SINGLE
HXD:TRN:TBLID 4 4 411840 411840 SINGLE
HXD:TRN:DATA_SIZE 4 4 411840 411840 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 411840 411840 SINGLE
HXD:TRH:BLOCK 4 4 411840 411840 SINGLE
HXD:TRH:TIME 4 4 411840 411840 SINGLE
HXD:TRH:GB_TIME 4 4 411840 411840 SINGLE
HXD:TRH:GB_FLG 4 4 411840 411840 SINGLE
HXD:TRH:TIME_MODE 4 4 411840 411840 SINGLE
HXD:TRH:RBM 4 4 411840 411840 SINGLE
HXD:TRH:GB_FRZ 4 4 411840 411840 SINGLE
HXD:TRH:DT_MODE 4 4 411840 411840 SINGLE
HXD:TRH:SUMLD_MODE 4 4 411840 411840 SINGLE
HXD:TRH:BOARD 4 4 411840 411840 SINGLE
HXD:TRH:GB_TRG 4 4 411840 411840 SINGLE
HXD:TRB:PI 216 216 411840 411840 SINGLE
HXD:TRB:PH 216 216 411840 411840 SINGLE
HXD:TRB:OVER_FLOW 4 4 411840 411840 SINGLE
HXD:TRB:PSEUDO 4 4 411840 411840 SINGLE
HXD:TRB:TRN_ANT 20 20 411840 411840 SINGLE
HXD:TRB:UD 4 4 411840 411840 SINGLE
HXD:TRB:DEAD_TIME 4 4 411840 411840 SINGLE
HXD:TRB:SUM_LD 4 4 411840 411840 SINGLE
HXD:TRB:WELL_ANT 16 16 411840 411840 SINGLE
HXD:TRN:TRN_QUALITY 4 4 823680 411840 SINGLE
HXDtrnFitsRead:IROW 4 4 411840 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 20 1 1 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 4 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDtrnFitsRead:NROW 4 4 1 1 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 411840 411840 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 9.321 0.868 10.188 45.65
[ 2] HXDgethkInit 0.159 0.195 0.354 1.59
[ 3] HXDtrngrade 0.157 0.187 0.344 1.54
[ 4] HXD2ndtrnFitsWrite 9.526 1.887 11.412 51.13
(others) 0.014 0.007 0.021 0.09
--------------------------------------------------------------------------
TOTAL 19.176 3.144 22.320 100.00
-> hxdwamgrade successful for ae803005010hxd_1_wam.sff.read_iomode,s,h,"readonly",,,"HXD wam fits input I/O mode : always readonly" time_change,b,h,n,,,"HXD wam fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD wam fits update PI : yes or no ?" quality_change,b,h,n,,,"HXD wam fits update QUALITY : yes or no ?" gtimode,b,h,y,,,"HXD wam fits using GTI : yes or no ?" gti_time,s,h,"TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,fr,a,"ae803005010hxd_1_wam.sff",,,"HXD wam fits file name ?" create_name,f,h,"none",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" create_bstidt_name,f,a,"ae803005010hxd_1_bstidt.fits",,,"HXD BST-ID-TABLE (bstidt) FITS name ?" leapfile,f,a,"AUTO",,,"leapsec file name" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwambstid
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDwambstid version 0.0.2
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
hxdcaldbUtil version 0.7.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDwambstid version 0.0.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_GB_RD_CNT' at hdu=3, col=41 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 411841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 411840/411841
[ 2] HXDleapsecInit version 2.0.1
| OK: 411840/411840
[ 3] HXDgethkInit version 0.1.0
| OK: 411840/411840
[ 4] HXDwambstid version 0.0.2
| OK: 411840/411840
GET: 411840
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 60/5000
buffer size : 120000
buffer used : 8304
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 4 1 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:TRN:EV_TIME 8 8 411840 0 SINGLE
HXD:TRN:PACKET_AETIME 8 8 411840 411760 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 411840 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 411840 411760 SINGLE
HXD:TRB:IBLOCK 4 4 411840 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 411840 0 SINGLE
HXD:TRN:BOARD 4 4 411840 0 SINGLE
HXD:TRN:BLOCK 4 4 411840 0 SINGLE
HXD:TRN:RDBIN 4 4 411840 0 SINGLE
HXD:TRN:TBLID 4 4 411840 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 411840 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 411840 0 SINGLE
HXD:TRH:BLOCK 4 4 411840 0 SINGLE
HXD:TRH:TIME 4 4 411840 0 SINGLE
HXD:TRH:GB_TIME 4 4 411840 0 SINGLE
HXD:TRH:GB_FLG 4 4 411840 0 SINGLE
HXD:TRH:TIME_MODE 4 4 411840 411760 SINGLE
HXD:TRH:RBM 4 4 411840 0 SINGLE
HXD:TRH:GB_FRZ 4 4 411840 411760 SINGLE
HXD:TRH:DT_MODE 4 4 411840 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 411840 0 SINGLE
HXD:TRH:BOARD 4 4 411840 411760 SINGLE
HXD:TRH:GB_TRG 4 4 411840 0 SINGLE
HXD:TRB:PI 216 216 411840 0 SINGLE
HXD:TRB:PH 216 216 411840 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 411840 0 SINGLE
HXD:TRB:PSEUDO 4 4 411840 0 SINGLE
HXD:TRB:TRN_ANT 20 20 411840 0 SINGLE
HXD:TRB:UD 4 4 411840 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 411840 0 SINGLE
HXD:TRB:SUM_LD 4 4 411840 0 SINGLE
HXD:TRB:WELL_ANT 16 16 411840 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 411840 0 SINGLE
HXDtrnFitsRead:IROW 4 4 411840 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 0 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:NROW 4 4 1 0 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 411840 411840 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.721 0.340 9.061 87.65
[ 2] HXDleapsecInit 0.142 0.237 0.379 3.67
[ 3] HXDgethkInit 0.105 0.186 0.291 2.81
[ 4] HXDwambstid 0.335 0.251 0.586 5.67
(others) 0.012 0.009 0.021 0.20
--------------------------------------------------------------------------
TOTAL 9.315 1.023 10.337 100.00
-> hxdwambstid successful for ae803005010hxd_1_wam.sff.read_iomode,s,h,"create",,,"HXD wam fits input I/O mode : overwrite or create ?" time_change,b,h,y,,,"HXD wam fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD wam fits update PI : yes or no ?" quality_change,b,h,n,,,"HXD wam fits update QUALITY : yes or no ?" gtimode,b,h,y,,,"HXD wam fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,fr,a,"ae803005010hxd_2_wam.fff",,,"HXD wam fits file name ?" create_name,f,a,"hxdwamtime_out.evt",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" time_convert_mode,i,h,4,,,"HxdTime2aetime mode ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwamtime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDrndInit version 0.2.0
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDftrnTime version 0.3.3
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDleapsecInit version 2.0.1
[ 4] HXDftrnTimeFITS version 0.3.3
[ 5] HXDftrnTime version 0.3.3
[ 6] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 362977
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 362976/362977
[ 2] HXDgethkInit version 0.1.0
| OK: 362976/362976
[ 3] HXDleapsecInit version 2.0.1
| OK: 362976/362976
[ 4] HXDftrnTimeFITS version 0.3.3
| OK: 362976/362976
[ 5] HXDftrnTime version 0.3.3
| OK: 362976/362976
[ 6] HXD2ndtrnFitsWrite version 0.3.1
| OK: 362976/362976
GET: 362976
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 70/5000
buffer size : 120000
buffer used : 10688
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 2 4 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 3 SINGLE
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 6 1 3 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 18 1 3 SINGLE
HXD:PIL:tim_filename 256 15 1 3 SINGLE
HXD:PIL:time_convert_mode 4 4 1 3 SINGLE
HXD:TRN:EV_TIME 8 8 725952 362976 SINGLE
HXD:TRN:PACKET_AETIME 8 8 362976 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 362976 1088800 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 362976 725888 SINGLE
HXD:TRB:IBLOCK 4 4 362976 725888 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 362976 362976 SINGLE
HXD:TRN:BOARD 4 4 362976 725888 SINGLE
HXD:TRN:BLOCK 4 4 362976 725888 SINGLE
HXD:TRN:RDBIN 4 4 362976 362976 SINGLE
HXD:TRN:TBLID 4 4 362976 362976 SINGLE
HXD:TRN:DATA_SIZE 4 4 362976 362976 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 362976 362976 SINGLE
HXD:TRH:BLOCK 4 4 362976 362976 SINGLE
HXD:TRH:TIME 4 4 362976 725888 SINGLE
HXD:TRH:GB_TIME 4 4 362976 362976 SINGLE
HXD:TRH:GB_FLG 4 4 362976 362976 SINGLE
HXD:TRH:TIME_MODE 4 4 362976 725888 SINGLE
HXD:TRH:RBM 4 4 362976 362976 SINGLE
HXD:TRH:GB_FRZ 4 4 362976 362976 SINGLE
HXD:TRH:DT_MODE 4 4 362976 362976 SINGLE
HXD:TRH:SUMLD_MODE 4 4 362976 362976 SINGLE
HXD:TRH:BOARD 4 4 362976 362976 SINGLE
HXD:TRH:GB_TRG 4 4 362976 362976 SINGLE
HXD:TRB:PI 216 216 362976 362976 SINGLE
HXD:TRB:PH 216 216 362976 362976 SINGLE
HXD:TRB:OVER_FLOW 4 4 362976 362976 SINGLE
HXD:TRB:PSEUDO 4 4 362976 362976 SINGLE
HXD:TRB:TRN_ANT 20 20 362976 362976 SINGLE
HXD:TRB:UD 4 4 362976 362976 SINGLE
HXD:TRB:DEAD_TIME 4 4 362976 362976 SINGLE
HXD:TRB:SUM_LD 4 4 362976 362976 SINGLE
HXD:TRB:WELL_ANT 16 16 362976 362976 SINGLE
HXD:TRN:TRN_QUALITY 4 4 362976 362976 SINGLE
HXDtrnFitsRead:IROW 4 4 362976 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 19 1 1 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 4 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDtrnFitsRead:NROW 4 4 1 1 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 385842 1088928 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDftrnTime:HXD_SYS_LATCH_TI 4 4 11401 11401 SINGLE
HXDftrnTime:HXD_AE_TM_LATCH_TM 4 4 11401 11401 SINGLE
HXDftrnTime:HXD_SYS_TIME 8 8 11401 0 SINGLE
HXDftrnTime:HXD_HK_TIME 8 8 11401 0 SINGLE
HXDftrnTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDftrnTime:TIME_INVALID 4 4 362976 0 SINGLE
HXDftrnTime:TIME_RESOLUTION 8 8 1 1 SINGLE
HXDftrnTime:TIME_MODE 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.198 1.297 9.495 42.92
[ 2] HXDgethkInit 0.099 0.226 0.325 1.47
[ 3] HXDleapsecInit 0.079 0.199 0.278 1.26
[ 4] HXDftrnTimeFITS 0.217 0.256 0.473 2.14
[ 5] HXDftrnTime 1.114 0.215 1.329 6.01
[ 6] HXD2ndtrnFitsWrite 8.245 1.957 10.201 46.11
(others) 0.016 0.006 0.022 0.10
--------------------------------------------------------------------------
TOTAL 17.967 4.155 22.123 100.00
-> hxdwamtime successful for ae803005010hxd_2_wam.sff.read_iomode,s,h,"readonly",,,"HXD trn fits input I/O mode : readonly or overwrite or create ?" create_name,f,h,"NONE",,,"HXD wam fits created file name ?" gtimode,b,h,n,,,"HXD trn fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,fr,a,"ae803005010hxd_2_wam.sff",,,"HXD trn fits file name ?" trn_fitlog_name,f,a,"wamfit.log",,,"HXD trn fitlog file name" trn_gainhist_name,f,a,"ae803005010hxd_2_wam.ghf",,,"HXD WAM gainhistory fits file name" gainhistory_iomode,b,h,n,,,"Add result to gainhistory : yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkwamgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDmktrngainhist version 0.1.2
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdtrnFitsToBnkUtil version 0.2.1
hxdFitsHeaderUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmktrngainhist version 0.1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 362977
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 362976/362977
[ 2] HXDleapsecInit version 2.0.1
| OK: 362976/362976
[ 3] HXDmktrngainhist version 0.1.2
| OK: 362976/362976
GET: 362976
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 59/5000
buffer size : 120000
buffer used : 8288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:TRN:EV_TIME 8 8 362976 362976 SINGLE
HXD:TRN:PACKET_AETIME 8 8 362976 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 362976 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 362976 0 SINGLE
HXD:TRB:IBLOCK 4 4 362976 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 362976 0 SINGLE
HXD:TRN:BOARD 4 4 362976 0 SINGLE
HXD:TRN:BLOCK 4 4 362976 0 SINGLE
HXD:TRN:RDBIN 4 4 362976 0 SINGLE
HXD:TRN:TBLID 4 4 362976 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 362976 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 362976 0 SINGLE
HXD:TRH:BLOCK 4 4 362976 0 SINGLE
HXD:TRH:TIME 4 4 362976 0 SINGLE
HXD:TRH:GB_TIME 4 4 362976 0 SINGLE
HXD:TRH:GB_FLG 4 4 362976 0 SINGLE
HXD:TRH:TIME_MODE 4 4 362976 0 SINGLE
HXD:TRH:RBM 4 4 362976 0 SINGLE
HXD:TRH:GB_FRZ 4 4 362976 0 SINGLE
HXD:TRH:DT_MODE 4 4 362976 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 362976 0 SINGLE
HXD:TRH:BOARD 4 4 362976 0 SINGLE
HXD:TRH:GB_TRG 4 4 362976 0 SINGLE
HXD:TRB:PI 216 216 362976 0 SINGLE
HXD:TRB:PH 216 216 362976 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 362976 0 SINGLE
HXD:TRB:PSEUDO 4 4 362976 0 SINGLE
HXD:TRB:TRN_ANT 20 20 362976 0 SINGLE
HXD:TRB:UD 4 4 362976 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 362976 0 SINGLE
HXD:TRB:SUM_LD 4 4 362976 0 SINGLE
HXD:TRB:WELL_ANT 16 16 362976 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 362976 0 SINGLE
HXDtrnFitsRead:IROW 4 4 362976 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 0 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:NROW 4 4 1 0 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 362976 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 7.500 0.306 7.806 92.37
[ 2] HXDleapsecInit 0.094 0.189 0.283 3.35
[ 3] HXDmktrngainhist 0.153 0.189 0.342 4.05
(others) 0.016 0.004 0.020 0.24
--------------------------------------------------------------------------
TOTAL 7.763 0.688 8.451 100.00
-> hxdmkwamgainhist successful for ae803005010hxd_2_wam.sff.read_iomode,s,h,"create",,,"HXD trn fits input I/O mode : overwrite or create ?" time_change,b,h,n,,,"HXD trn fits update TIME : yes or no ?" pi_change,b,h,y,,,"HXD trn fits update PI : yes or no ?" quality_change,b,h,n,,,"HXD trn fits update QUALITY : yes or no ?" gtimode,b,h,n,,,"HXD trn fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,f,a,"ae803005010hxd_2_wam.sff",,,"HXD trn fits file name ?" create_name,f,h,"hxdwampi_out.evt",,,"HXD trn fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD (none).hk fits file name ?" trn_bintbl_name,f,a,"CALDB",,,"HXD TRN rebin_table_file name ?" trn_gainhist_name,fr,a,"ae803005010hxd_2_wam.ghf",,,"HXD TRN gain history fie name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwampi
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.1
HXDtrnFitsRead version 0.4.2
HXDgethkInit version 0.1.0
HXDrndInit version 0.2.0
HXDtrnpi version 2.0.0
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdtrnpiUtil version 0.0.4
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDtrnpi version 2.0.0
[ 4] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 362977
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 362976/362977
[ 2] HXDgethkInit version 0.1.0
| OK: 362976/362976
[ 3] HXDtrnpi version 2.0.0
| OK: 362976/362976
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 362976/362976
GET: 362976
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 61/5000
buffer size : 120000
buffer used : 6816
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwampi_yn 4 4 2 3 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 3 SINGLE
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 16 1 3 SINGLE
HXD:PIL:trn_bintbl_name 256 112 1 3 SINGLE
HXD:PIL:trn_gainhist_name 256 24 1 3 SINGLE
HXD:PIL:CALDB_TYPE:wampht 4 4 1 3 SINGLE
HXD:TRN:EV_TIME 8 8 362976 725952 SINGLE
HXD:TRN:PACKET_AETIME 8 8 362976 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 362976 362976 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 362976 362976 SINGLE
HXD:TRB:IBLOCK 4 4 362976 362976 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 362976 362976 SINGLE
HXD:TRN:BOARD 4 4 362976 362976 SINGLE
HXD:TRN:BLOCK 4 4 362976 362976 SINGLE
HXD:TRN:RDBIN 4 4 362976 725952 SINGLE
HXD:TRN:TBLID 4 4 362976 362976 SINGLE
HXD:TRN:DATA_SIZE 4 4 362976 362976 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 362976 362976 SINGLE
HXD:TRH:BLOCK 4 4 362976 362976 SINGLE
HXD:TRH:TIME 4 4 362976 362976 SINGLE
HXD:TRH:GB_TIME 4 4 362976 362976 SINGLE
HXD:TRH:GB_FLG 4 4 362976 362976 SINGLE
HXD:TRH:TIME_MODE 4 4 362976 362976 SINGLE
HXD:TRH:RBM 4 4 362976 362976 SINGLE
HXD:TRH:GB_FRZ 4 4 362976 362976 SINGLE
HXD:TRH:DT_MODE 4 4 362976 362976 SINGLE
HXD:TRH:SUMLD_MODE 4 4 362976 362976 SINGLE
HXD:TRH:BOARD 4 4 362976 725952 SINGLE
HXD:TRH:GB_TRG 4 4 362976 362976 SINGLE
HXD:TRB:PI 216 216 725952 362976 SINGLE
HXD:TRB:PH 216 216 362976 725952 SINGLE
HXD:TRB:OVER_FLOW 4 4 362976 362976 SINGLE
HXD:TRB:PSEUDO 4 4 362976 362976 SINGLE
HXD:TRB:TRN_ANT 20 20 362976 362976 SINGLE
HXD:TRB:UD 4 4 362976 362976 SINGLE
HXD:TRB:DEAD_TIME 4 4 362976 362976 SINGLE
HXD:TRB:SUM_LD 4 4 362976 362976 SINGLE
HXD:TRB:WELL_ANT 16 16 362976 362976 SINGLE
HXD:TRN:TRN_QUALITY 4 4 362976 362976 SINGLE
HXDtrnFitsRead:IROW 4 4 362976 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 17 1 1 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 4 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDtrnFitsRead:NROW 4 4 1 1 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 362976 362976 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.084 0.894 8.978 44.85
[ 2] HXDgethkInit 0.114 0.235 0.349 1.74
[ 3] HXDtrnpi 0.374 0.199 0.573 2.86
[ 4] HXD2ndtrnFitsWrite 8.395 1.699 10.093 50.42
(others) 0.016 0.008 0.024 0.12
--------------------------------------------------------------------------
TOTAL 16.982 3.035 20.017 100.00
-> hxdwampi successful for ae803005010hxd_2_wam.sff.read_iomode,s,h,"create",,,"HXD trn fits input I/O mode : overwrite or create ?" time_change,b,h,n,,,"HXD trn fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD trn fits update PI : yes or no ?" quality_change,b,h,y,,,"HXD trn fits update QUALITY : yes or no ?" gtimode,b,h,n,,,"HXD trn fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,f,a,"ae803005010hxd_2_wam.sff",,,"HXD trn fits file name ?" create_name,f,h,"hxdwamgrade_out.evt",,,"HXD trn fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD (none).hk fits file name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwamgrade
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDrndInit version 0.2.0
HXDgethkInit version 0.1.0
HXDtrngrade version 0.1.0
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdtrngradeUtil version 0.0.2
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDtrngrade version 0.1.0
[ 4] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 362977
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 362976/362977
[ 2] HXDgethkInit version 0.1.0
| OK: 362976/362976
[ 3] HXDtrngrade version 0.1.0
| OK: 362976/362976
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 362976/362976
GET: 362976
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 58/5000
buffer size : 120000
buffer used : 6288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 2 3 SINGLE
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 19 1 3 SINGLE
HXD:TRN:EV_TIME 8 8 362976 362976 SINGLE
HXD:TRN:PACKET_AETIME 8 8 362976 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 362976 362976 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 362976 362976 SINGLE
HXD:TRB:IBLOCK 4 4 362976 362976 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 362976 362976 SINGLE
HXD:TRN:BOARD 4 4 362976 362976 SINGLE
HXD:TRN:BLOCK 4 4 362976 362976 SINGLE
HXD:TRN:RDBIN 4 4 362976 362976 SINGLE
HXD:TRN:TBLID 4 4 362976 362976 SINGLE
HXD:TRN:DATA_SIZE 4 4 362976 362976 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 362976 362976 SINGLE
HXD:TRH:BLOCK 4 4 362976 362976 SINGLE
HXD:TRH:TIME 4 4 362976 362976 SINGLE
HXD:TRH:GB_TIME 4 4 362976 362976 SINGLE
HXD:TRH:GB_FLG 4 4 362976 362976 SINGLE
HXD:TRH:TIME_MODE 4 4 362976 362976 SINGLE
HXD:TRH:RBM 4 4 362976 362976 SINGLE
HXD:TRH:GB_FRZ 4 4 362976 362976 SINGLE
HXD:TRH:DT_MODE 4 4 362976 362976 SINGLE
HXD:TRH:SUMLD_MODE 4 4 362976 362976 SINGLE
HXD:TRH:BOARD 4 4 362976 362976 SINGLE
HXD:TRH:GB_TRG 4 4 362976 362976 SINGLE
HXD:TRB:PI 216 216 362976 362976 SINGLE
HXD:TRB:PH 216 216 362976 362976 SINGLE
HXD:TRB:OVER_FLOW 4 4 362976 362976 SINGLE
HXD:TRB:PSEUDO 4 4 362976 362976 SINGLE
HXD:TRB:TRN_ANT 20 20 362976 362976 SINGLE
HXD:TRB:UD 4 4 362976 362976 SINGLE
HXD:TRB:DEAD_TIME 4 4 362976 362976 SINGLE
HXD:TRB:SUM_LD 4 4 362976 362976 SINGLE
HXD:TRB:WELL_ANT 16 16 362976 362976 SINGLE
HXD:TRN:TRN_QUALITY 4 4 725952 362976 SINGLE
HXDtrnFitsRead:IROW 4 4 362976 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 20 1 1 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 4 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDtrnFitsRead:NROW 4 4 1 1 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 362976 362976 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.149 0.749 8.898 45.28
[ 2] HXDgethkInit 0.123 0.177 0.300 1.53
[ 3] HXDtrngrade 0.153 0.165 0.318 1.62
[ 4] HXD2ndtrnFitsWrite 8.376 1.735 10.110 51.46
(others) 0.015 0.008 0.023 0.12
--------------------------------------------------------------------------
TOTAL 16.815 2.834 19.649 100.00
-> hxdwamgrade successful for ae803005010hxd_2_wam.sff.read_iomode,s,h,"readonly",,,"HXD wam fits input I/O mode : always readonly" time_change,b,h,n,,,"HXD wam fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD wam fits update PI : yes or no ?" quality_change,b,h,n,,,"HXD wam fits update QUALITY : yes or no ?" gtimode,b,h,y,,,"HXD wam fits using GTI : yes or no ?" gti_time,s,h,"TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,fr,a,"ae803005010hxd_2_wam.sff",,,"HXD wam fits file name ?" create_name,f,h,"none",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" create_bstidt_name,f,a,"ae803005010hxd_2_bstidt.fits",,,"HXD BST-ID-TABLE (bstidt) FITS name ?" leapfile,f,a,"AUTO",,,"leapsec file name" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwambstid
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDwambstid version 0.0.2
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
hxdcaldbUtil version 0.7.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDwambstid version 0.0.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_GB_RD_CNT' at hdu=3, col=41 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 362977
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 362976/362977
[ 2] HXDleapsecInit version 2.0.1
| OK: 362976/362976
[ 3] HXDgethkInit version 0.1.0
| OK: 362976/362976
[ 4] HXDwambstid version 0.0.2
| OK: 362976/362976
GET: 362976
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 60/5000
buffer size : 120000
buffer used : 8304
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 4 1 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:TRN:EV_TIME 8 8 362976 0 SINGLE
HXD:TRN:PACKET_AETIME 8 8 362976 362912 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 362976 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 362976 362912 SINGLE
HXD:TRB:IBLOCK 4 4 362976 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 362976 0 SINGLE
HXD:TRN:BOARD 4 4 362976 0 SINGLE
HXD:TRN:BLOCK 4 4 362976 0 SINGLE
HXD:TRN:RDBIN 4 4 362976 0 SINGLE
HXD:TRN:TBLID 4 4 362976 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 362976 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 362976 0 SINGLE
HXD:TRH:BLOCK 4 4 362976 0 SINGLE
HXD:TRH:TIME 4 4 362976 0 SINGLE
HXD:TRH:GB_TIME 4 4 362976 0 SINGLE
HXD:TRH:GB_FLG 4 4 362976 0 SINGLE
HXD:TRH:TIME_MODE 4 4 362976 362912 SINGLE
HXD:TRH:RBM 4 4 362976 0 SINGLE
HXD:TRH:GB_FRZ 4 4 362976 362912 SINGLE
HXD:TRH:DT_MODE 4 4 362976 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 362976 0 SINGLE
HXD:TRH:BOARD 4 4 362976 362912 SINGLE
HXD:TRH:GB_TRG 4 4 362976 0 SINGLE
HXD:TRB:PI 216 216 362976 0 SINGLE
HXD:TRB:PH 216 216 362976 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 362976 0 SINGLE
HXD:TRB:PSEUDO 4 4 362976 0 SINGLE
HXD:TRB:TRN_ANT 20 20 362976 0 SINGLE
HXD:TRB:UD 4 4 362976 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 362976 0 SINGLE
HXD:TRB:SUM_LD 4 4 362976 0 SINGLE
HXD:TRB:WELL_ANT 16 16 362976 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 362976 0 SINGLE
HXDtrnFitsRead:IROW 4 4 362976 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 0 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:NROW 4 4 1 0 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 362976 362976 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 7.640 0.260 7.900 86.80
[ 2] HXDleapsecInit 0.130 0.205 0.335 3.68
[ 3] HXDgethkInit 0.091 0.185 0.276 3.03
[ 4] HXDwambstid 0.334 0.233 0.567 6.23
(others) 0.014 0.009 0.023 0.25
--------------------------------------------------------------------------
TOTAL 8.209 0.892 9.101 100.00
-> hxdwambstid successful for ae803005010hxd_2_wam.sff.read_iomode,s,h,"create",,,"HXD wam fits input I/O mode : overwrite or create ?" time_change,b,h,y,,,"HXD wam fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD wam fits update PI : yes or no ?" quality_change,b,h,n,,,"HXD wam fits update QUALITY : yes or no ?" gtimode,b,h,y,,,"HXD wam fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,fr,a,"ae803005010hxd_3_wam.fff",,,"HXD wam fits file name ?" create_name,f,a,"hxdwamtime_out.evt",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" time_convert_mode,i,h,4,,,"HxdTime2aetime mode ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwamtime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDrndInit version 0.2.0
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDftrnTime version 0.3.3
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDleapsecInit version 2.0.1
[ 4] HXDftrnTimeFITS version 0.3.3
[ 5] HXDftrnTime version 0.3.3
[ 6] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 14193
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 14192/14193
[ 2] HXDgethkInit version 0.1.0
| OK: 14192/14192
[ 3] HXDleapsecInit version 2.0.1
| OK: 14192/14192
[ 4] HXDftrnTimeFITS version 0.3.3
| OK: 14192/14192
[ 5] HXDftrnTime version 0.3.3
| OK: 14192/14192
[ 6] HXD2ndtrnFitsWrite version 0.3.1
| OK: 14192/14192
GET: 14192
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 70/5000
buffer size : 120000
buffer used : 10688
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 2 4 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 3 SINGLE
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 6 1 3 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 18 1 3 SINGLE
HXD:PIL:tim_filename 256 15 1 3 SINGLE
HXD:PIL:time_convert_mode 4 4 1 3 SINGLE
HXD:TRN:EV_TIME 8 8 28384 14192 SINGLE
HXD:TRN:PACKET_AETIME 8 8 14192 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 14192 42416 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 14192 28304 SINGLE
HXD:TRB:IBLOCK 4 4 14192 28304 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 14192 14192 SINGLE
HXD:TRN:BOARD 4 4 14192 28304 SINGLE
HXD:TRN:BLOCK 4 4 14192 28304 SINGLE
HXD:TRN:RDBIN 4 4 14192 14192 SINGLE
HXD:TRN:TBLID 4 4 14192 14192 SINGLE
HXD:TRN:DATA_SIZE 4 4 14192 14192 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 14192 14192 SINGLE
HXD:TRH:BLOCK 4 4 14192 14192 SINGLE
HXD:TRH:TIME 4 4 14192 28304 SINGLE
HXD:TRH:GB_TIME 4 4 14192 14192 SINGLE
HXD:TRH:GB_FLG 4 4 14192 14192 SINGLE
HXD:TRH:TIME_MODE 4 4 14192 28304 SINGLE
HXD:TRH:RBM 4 4 14192 14192 SINGLE
HXD:TRH:GB_FRZ 4 4 14192 14192 SINGLE
HXD:TRH:DT_MODE 4 4 14192 14192 SINGLE
HXD:TRH:SUMLD_MODE 4 4 14192 14192 SINGLE
HXD:TRH:BOARD 4 4 14192 14192 SINGLE
HXD:TRH:GB_TRG 4 4 14192 14192 SINGLE
HXD:TRB:PI 216 216 14192 14192 SINGLE
HXD:TRB:PH 216 216 14192 14192 SINGLE
HXD:TRB:OVER_FLOW 4 4 14192 14192 SINGLE
HXD:TRB:PSEUDO 4 4 14192 14192 SINGLE
HXD:TRB:TRN_ANT 20 20 14192 14192 SINGLE
HXD:TRB:UD 4 4 14192 14192 SINGLE
HXD:TRB:DEAD_TIME 4 4 14192 14192 SINGLE
HXD:TRB:SUM_LD 4 4 14192 14192 SINGLE
HXD:TRB:WELL_ANT 16 16 14192 14192 SINGLE
HXD:TRN:TRN_QUALITY 4 4 14192 14192 SINGLE
HXDtrnFitsRead:IROW 4 4 14192 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 19 1 1 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 4 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDtrnFitsRead:NROW 4 4 1 1 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 15064 42576 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDftrnTime:HXD_SYS_LATCH_TI 4 4 396 396 SINGLE
HXDftrnTime:HXD_AE_TM_LATCH_TM 4 4 396 396 SINGLE
HXDftrnTime:HXD_SYS_TIME 8 8 396 0 SINGLE
HXDftrnTime:HXD_HK_TIME 8 8 396 0 SINGLE
HXDftrnTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDftrnTime:TIME_INVALID 4 4 14192 0 SINGLE
HXDftrnTime:TIME_RESOLUTION 8 8 1 1 SINGLE
HXDftrnTime:TIME_MODE 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 0.341 0.035 0.376 33.19
[ 2] HXDgethkInit 0.006 0.008 0.014 1.24
[ 3] HXDleapsecInit 0.007 0.003 0.010 0.88
[ 4] HXDftrnTimeFITS 0.043 0.057 0.100 8.83
[ 5] HXDftrnTime 0.176 0.020 0.196 17.30
[ 6] HXD2ndtrnFitsWrite 0.326 0.089 0.415 36.63
(others) 0.016 0.006 0.022 1.94
--------------------------------------------------------------------------
TOTAL 0.915 0.218 1.133 100.00
-> hxdwamtime successful for ae803005010hxd_3_wam.sff.read_iomode,s,h,"readonly",,,"HXD trn fits input I/O mode : readonly or overwrite or create ?" create_name,f,h,"NONE",,,"HXD wam fits created file name ?" gtimode,b,h,n,,,"HXD trn fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,fr,a,"ae803005010hxd_3_wam.sff",,,"HXD trn fits file name ?" trn_fitlog_name,f,a,"wamfit.log",,,"HXD trn fitlog file name" trn_gainhist_name,f,a,"ae803005010hxd_3_wam.ghf",,,"HXD WAM gainhistory fits file name" gainhistory_iomode,b,h,n,,,"Add result to gainhistory : yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkwamgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDmktrngainhist version 0.1.2
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdtrnFitsToBnkUtil version 0.2.1
hxdFitsHeaderUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmktrngainhist version 0.1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 14193
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 14192/14193
[ 2] HXDleapsecInit version 2.0.1
| OK: 14192/14192
[ 3] HXDmktrngainhist version 0.1.2
| OK: 14192/14192
GET: 14192
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 59/5000
buffer size : 120000
buffer used : 8288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:TRN:EV_TIME 8 8 14192 14192 SINGLE
HXD:TRN:PACKET_AETIME 8 8 14192 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 14192 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 14192 0 SINGLE
HXD:TRB:IBLOCK 4 4 14192 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 14192 0 SINGLE
HXD:TRN:BOARD 4 4 14192 0 SINGLE
HXD:TRN:BLOCK 4 4 14192 0 SINGLE
HXD:TRN:RDBIN 4 4 14192 0 SINGLE
HXD:TRN:TBLID 4 4 14192 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 14192 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 14192 0 SINGLE
HXD:TRH:BLOCK 4 4 14192 0 SINGLE
HXD:TRH:TIME 4 4 14192 0 SINGLE
HXD:TRH:GB_TIME 4 4 14192 0 SINGLE
HXD:TRH:GB_FLG 4 4 14192 0 SINGLE
HXD:TRH:TIME_MODE 4 4 14192 0 SINGLE
HXD:TRH:RBM 4 4 14192 0 SINGLE
HXD:TRH:GB_FRZ 4 4 14192 0 SINGLE
HXD:TRH:DT_MODE 4 4 14192 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 14192 0 SINGLE
HXD:TRH:BOARD 4 4 14192 0 SINGLE
HXD:TRH:GB_TRG 4 4 14192 0 SINGLE
HXD:TRB:PI 216 216 14192 0 SINGLE
HXD:TRB:PH 216 216 14192 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 14192 0 SINGLE
HXD:TRB:PSEUDO 4 4 14192 0 SINGLE
HXD:TRB:TRN_ANT 20 20 14192 0 SINGLE
HXD:TRB:UD 4 4 14192 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 14192 0 SINGLE
HXD:TRB:SUM_LD 4 4 14192 0 SINGLE
HXD:TRB:WELL_ANT 16 16 14192 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 14192 0 SINGLE
HXDtrnFitsRead:IROW 4 4 14192 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 0 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:NROW 4 4 1 0 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 14192 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 0.311 0.008 0.319 86.45
[ 2] HXDleapsecInit 0.004 0.011 0.015 4.07
[ 3] HXDmktrngainhist 0.008 0.007 0.015 4.06
(others) 0.014 0.006 0.020 5.42
--------------------------------------------------------------------------
TOTAL 0.337 0.032 0.369 100.00
-> hxdmkwamgainhist successful for ae803005010hxd_3_wam.sff.read_iomode,s,h,"create",,,"HXD trn fits input I/O mode : overwrite or create ?" time_change,b,h,n,,,"HXD trn fits update TIME : yes or no ?" pi_change,b,h,y,,,"HXD trn fits update PI : yes or no ?" quality_change,b,h,n,,,"HXD trn fits update QUALITY : yes or no ?" gtimode,b,h,n,,,"HXD trn fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,f,a,"ae803005010hxd_3_wam.sff",,,"HXD trn fits file name ?" create_name,f,h,"hxdwampi_out.evt",,,"HXD trn fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD (none).hk fits file name ?" trn_bintbl_name,f,a,"CALDB",,,"HXD TRN rebin_table_file name ?" trn_gainhist_name,fr,a,"ae803005010hxd_3_wam.ghf",,,"HXD TRN gain history fie name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwampi
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.1
HXDtrnFitsRead version 0.4.2
HXDgethkInit version 0.1.0
HXDrndInit version 0.2.0
HXDtrnpi version 2.0.0
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdtrnpiUtil version 0.0.4
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDtrnpi version 2.0.0
[ 4] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 14193
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 14192/14193
[ 2] HXDgethkInit version 0.1.0
| OK: 14192/14192
[ 3] HXDtrnpi version 2.0.0
| OK: 14192/14192
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 14192/14192
GET: 14192
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 61/5000
buffer size : 120000
buffer used : 6816
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwampi_yn 4 4 2 3 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 3 SINGLE
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 16 1 3 SINGLE
HXD:PIL:trn_bintbl_name 256 112 1 3 SINGLE
HXD:PIL:trn_gainhist_name 256 24 1 3 SINGLE
HXD:PIL:CALDB_TYPE:wampht 4 4 1 3 SINGLE
HXD:TRN:EV_TIME 8 8 14192 28384 SINGLE
HXD:TRN:PACKET_AETIME 8 8 14192 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 14192 14192 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 14192 14192 SINGLE
HXD:TRB:IBLOCK 4 4 14192 14192 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 14192 14192 SINGLE
HXD:TRN:BOARD 4 4 14192 14192 SINGLE
HXD:TRN:BLOCK 4 4 14192 14192 SINGLE
HXD:TRN:RDBIN 4 4 14192 28384 SINGLE
HXD:TRN:TBLID 4 4 14192 14192 SINGLE
HXD:TRN:DATA_SIZE 4 4 14192 14192 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 14192 14192 SINGLE
HXD:TRH:BLOCK 4 4 14192 14192 SINGLE
HXD:TRH:TIME 4 4 14192 14192 SINGLE
HXD:TRH:GB_TIME 4 4 14192 14192 SINGLE
HXD:TRH:GB_FLG 4 4 14192 14192 SINGLE
HXD:TRH:TIME_MODE 4 4 14192 14192 SINGLE
HXD:TRH:RBM 4 4 14192 14192 SINGLE
HXD:TRH:GB_FRZ 4 4 14192 14192 SINGLE
HXD:TRH:DT_MODE 4 4 14192 14192 SINGLE
HXD:TRH:SUMLD_MODE 4 4 14192 14192 SINGLE
HXD:TRH:BOARD 4 4 14192 28384 SINGLE
HXD:TRH:GB_TRG 4 4 14192 14192 SINGLE
HXD:TRB:PI 216 216 28384 14192 SINGLE
HXD:TRB:PH 216 216 14192 28384 SINGLE
HXD:TRB:OVER_FLOW 4 4 14192 14192 SINGLE
HXD:TRB:PSEUDO 4 4 14192 14192 SINGLE
HXD:TRB:TRN_ANT 20 20 14192 14192 SINGLE
HXD:TRB:UD 4 4 14192 14192 SINGLE
HXD:TRB:DEAD_TIME 4 4 14192 14192 SINGLE
HXD:TRB:SUM_LD 4 4 14192 14192 SINGLE
HXD:TRB:WELL_ANT 16 16 14192 14192 SINGLE
HXD:TRN:TRN_QUALITY 4 4 14192 14192 SINGLE
HXDtrnFitsRead:IROW 4 4 14192 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 17 1 1 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 4 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDtrnFitsRead:NROW 4 4 1 1 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 14192 14192 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 0.339 0.027 0.366 44.63
[ 2] HXDgethkInit 0.007 0.010 0.017 2.07
[ 3] HXDtrnpi 0.015 0.006 0.021 2.56
[ 4] HXD2ndtrnFitsWrite 0.328 0.066 0.394 48.05
(others) 0.015 0.007 0.022 2.68
--------------------------------------------------------------------------
TOTAL 0.704 0.116 0.820 100.00
-> hxdwampi successful for ae803005010hxd_3_wam.sff.read_iomode,s,h,"create",,,"HXD trn fits input I/O mode : overwrite or create ?" time_change,b,h,n,,,"HXD trn fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD trn fits update PI : yes or no ?" quality_change,b,h,y,,,"HXD trn fits update QUALITY : yes or no ?" gtimode,b,h,n,,,"HXD trn fits using GTI : yes or no ?" gti_time,s,h,"S_TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,f,a,"ae803005010hxd_3_wam.sff",,,"HXD trn fits file name ?" create_name,f,h,"hxdwamgrade_out.evt",,,"HXD trn fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD (none).hk fits file name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwamgrade
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDrndInit version 0.2.0
HXDgethkInit version 0.1.0
HXDtrngrade version 0.1.0
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdtrngradeUtil version 0.0.2
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDtrngrade version 0.1.0
[ 4] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 14193
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 14192/14193
[ 2] HXDgethkInit version 0.1.0
| OK: 14192/14192
[ 3] HXDtrngrade version 0.1.0
| OK: 14192/14192
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 14192/14192
GET: 14192
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 58/5000
buffer size : 120000
buffer used : 6288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 4 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 3 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 2 3 SINGLE
HXD:PIL:read_iomode 256 6 1 3 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 3 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 24 1 3 SINGLE
HXD:PIL:create_name 256 19 1 3 SINGLE
HXD:TRN:EV_TIME 8 8 14192 14192 SINGLE
HXD:TRN:PACKET_AETIME 8 8 14192 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 14192 14192 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 14192 14192 SINGLE
HXD:TRB:IBLOCK 4 4 14192 14192 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 14192 14192 SINGLE
HXD:TRN:BOARD 4 4 14192 14192 SINGLE
HXD:TRN:BLOCK 4 4 14192 14192 SINGLE
HXD:TRN:RDBIN 4 4 14192 14192 SINGLE
HXD:TRN:TBLID 4 4 14192 14192 SINGLE
HXD:TRN:DATA_SIZE 4 4 14192 14192 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 14192 14192 SINGLE
HXD:TRH:BLOCK 4 4 14192 14192 SINGLE
HXD:TRH:TIME 4 4 14192 14192 SINGLE
HXD:TRH:GB_TIME 4 4 14192 14192 SINGLE
HXD:TRH:GB_FLG 4 4 14192 14192 SINGLE
HXD:TRH:TIME_MODE 4 4 14192 14192 SINGLE
HXD:TRH:RBM 4 4 14192 14192 SINGLE
HXD:TRH:GB_FRZ 4 4 14192 14192 SINGLE
HXD:TRH:DT_MODE 4 4 14192 14192 SINGLE
HXD:TRH:SUMLD_MODE 4 4 14192 14192 SINGLE
HXD:TRH:BOARD 4 4 14192 14192 SINGLE
HXD:TRH:GB_TRG 4 4 14192 14192 SINGLE
HXD:TRB:PI 216 216 14192 14192 SINGLE
HXD:TRB:PH 216 216 14192 14192 SINGLE
HXD:TRB:OVER_FLOW 4 4 14192 14192 SINGLE
HXD:TRB:PSEUDO 4 4 14192 14192 SINGLE
HXD:TRB:TRN_ANT 20 20 14192 14192 SINGLE
HXD:TRB:UD 4 4 14192 14192 SINGLE
HXD:TRB:DEAD_TIME 4 4 14192 14192 SINGLE
HXD:TRB:SUM_LD 4 4 14192 14192 SINGLE
HXD:TRB:WELL_ANT 16 16 14192 14192 SINGLE
HXD:TRN:TRN_QUALITY 4 4 28384 14192 SINGLE
HXDtrnFitsRead:IROW 4 4 14192 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 20 1 1 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 4 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 1 SINGLE
HXDtrnFitsRead:NROW 4 4 1 1 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 1 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 14192 14192 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 0.337 0.032 0.369 45.33
[ 2] HXDgethkInit 0.010 0.011 0.021 2.58
[ 3] HXDtrngrade 0.004 0.006 0.010 1.23
[ 4] HXD2ndtrnFitsWrite 0.335 0.058 0.393 48.28
(others) 0.011 0.010 0.021 2.58
--------------------------------------------------------------------------
TOTAL 0.697 0.117 0.814 100.00
-> hxdwamgrade successful for ae803005010hxd_3_wam.sff.read_iomode,s,h,"readonly",,,"HXD wam fits input I/O mode : always readonly" time_change,b,h,n,,,"HXD wam fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD wam fits update PI : yes or no ?" quality_change,b,h,n,,,"HXD wam fits update QUALITY : yes or no ?" gtimode,b,h,y,,,"HXD wam fits using GTI : yes or no ?" gti_time,s,h,"TIME",,,"HXD wam fits using time : TIME or S_TIME ?" input_name,fr,a,"ae803005010hxd_3_wam.sff",,,"HXD wam fits file name ?" create_name,f,h,"none",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" create_bstidt_name,f,a,"ae803005010hxd_3_bstidt.fits",,,"HXD BST-ID-TABLE (bstidt) FITS name ?" leapfile,f,a,"AUTO",,,"leapsec file name" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwambstid
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDwambstid version 0.0.2
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
hxdcaldbUtil version 0.7.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDwambstid version 0.0.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 14193
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 14192/14193
[ 2] HXDleapsecInit version 2.0.1
| OK: 14192/14192
[ 3] HXDgethkInit version 0.1.0
| OK: 14192/14192
[ 4] HXDwambstid version 0.0.2
| OK: 14192/14192
GET: 14192
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 60/5000
buffer size : 120000
buffer used : 8304
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 4 1 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:TRN:EV_TIME 8 8 14192 0 SINGLE
HXD:TRN:PACKET_AETIME 8 8 14192 14112 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 14192 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 14192 14112 SINGLE
HXD:TRB:IBLOCK 4 4 14192 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 14192 0 SINGLE
HXD:TRN:BOARD 4 4 14192 0 SINGLE
HXD:TRN:BLOCK 4 4 14192 0 SINGLE
HXD:TRN:RDBIN 4 4 14192 0 SINGLE
HXD:TRN:TBLID 4 4 14192 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 14192 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 14192 0 SINGLE
HXD:TRH:BLOCK 4 4 14192 0 SINGLE
HXD:TRH:TIME 4 4 14192 0 SINGLE
HXD:TRH:GB_TIME 4 4 14192 0 SINGLE
HXD:TRH:GB_FLG 4 4 14192 0 SINGLE
HXD:TRH:TIME_MODE 4 4 14192 14112 SINGLE
HXD:TRH:RBM 4 4 14192 0 SINGLE
HXD:TRH:GB_FRZ 4 4 14192 14112 SINGLE
HXD:TRH:DT_MODE 4 4 14192 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 14192 0 SINGLE
HXD:TRH:BOARD 4 4 14192 14112 SINGLE
HXD:TRH:GB_TRG 4 4 14192 0 SINGLE
HXD:TRB:PI 216 216 14192 0 SINGLE
HXD:TRB:PH 216 216 14192 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 14192 0 SINGLE
HXD:TRB:PSEUDO 4 4 14192 0 SINGLE
HXD:TRB:TRN_ANT 20 20 14192 0 SINGLE
HXD:TRB:UD 4 4 14192 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 14192 0 SINGLE
HXD:TRB:SUM_LD 4 4 14192 0 SINGLE
HXD:TRB:WELL_ANT 16 16 14192 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 14192 0 SINGLE
HXDtrnFitsRead:IROW 4 4 14192 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 0 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:NROW 4 4 1 0 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 14192 14192 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 0.304 0.011 0.315 81.82
[ 2] HXDleapsecInit 0.006 0.005 0.011 2.86
[ 3] HXDgethkInit 0.002 0.010 0.012 3.12
[ 4] HXDwambstid 0.016 0.009 0.025 6.49
(others) 0.015 0.007 0.022 5.71
--------------------------------------------------------------------------
TOTAL 0.343 0.042 0.385 100.00
-> hxdwambstid successful for ae803005010hxd_3_wam.sff.Checksum keywords updated successfully.-> Running hxdbsttime on ae803005010hxd_1_bst01.fff.
read_iomode,s,h,"create",,,"HXD bst fits input I/O mode : overwrite or create ?" input_name,fr,a,"ae803005010hxd_1_bst01.fff",,,"HXD bst fits file name ?" create_name,f,a,"hxdbsstime_out.evt",,,"HXD bst fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" time_convert_mode,i,h,4,,,"BST TIME: HxdTime2aetime mode ?" bstidt_fname,f,a,"CALDB",,,"input bstidt file name" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdbsttime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDbstFitsRead version 2.0.0
HXDgethkInit version 0.1.0
HXDleapsecInit version 2.0.1
HXDfbstTime version 2.0.0
HXD2ndbstFitsWrite version 2.0.0
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdbstFitsUtil version 2.0.9
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdbstFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDbstFitsRead version 2.0.0
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDfbstTimeFITS version 2.0.0
[ 5] HXDfbstTime version 2.0.0
[ 6] HXD2ndbstFitsWrite version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 513
QUIT: 1 |
<--- [ 1] HXDbstFitsRead version 2.0.0
| OK: 512/513
[ 2] HXDleapsecInit version 2.0.1
| OK: 512/512
[ 3] HXDgethkInit version 0.1.0
| OK: 512/512
[ 4] HXDfbstTimeFITS version 2.0.0
| OK: 512/512
[ 5] HXDfbstTime version 2.0.0
| OK: 512/512
[ 6] HXD2ndbstFitsWrite version 2.0.0
| OK: 512/512
GET: 512
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 58/5000
buffer size : 120000
buffer used : 12960
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdbsttime_yn 4 4 2 3 SINGLE
HXD:PIL:read_iomode 256 6 1 2 SINGLE
HXD:PIL:input_name 256 26 1 2 SINGLE
HXD:PIL:create_name 256 18 1 2 SINGLE
HXD:BST:format_version 4 4 1 2 SINGLE
HXD:PIL:tim_filename 256 15 1 2 SINGLE
HXD:PIL:bstidt_filename 256 112 1 2 SINGLE
HXD:PIL:CALDB_TYPE:bstidt 4 4 1 2 SINGLE
HXD:PIL:time_convert_mode 4 4 1 2 SINGLE
HXD:BST:FRZD_TM 32 32 2 1 SINGLE
HXD:BST:FRTM_CT 16 16 1 1 SINGLE
HXD:BST:TM_MODE 16 16 1 1 SINGLE
HXD:BST:PACKET_AETIME 8 8 512 0 SINGLE
HXD:BST:PACKET_S_TIME 8 8 512 1536 SINGLE
HXD:BST:PACKET_SEC_HEADER 4 4 512 1024 SINGLE
HXD:BST:IBLOCK 4 4 512 512 SINGLE
HXD:BST:ERR_COD 4 4 512 512 SINGLE
HXD:BST:SOFT_FLG 4 4 512 512 SINGLE
HXD:BST:CURRENT_TPU 4 4 512 512 SINGLE
HXD:BST:REST_REQ 4 4 512 512 SINGLE
HXD:BST:DATA_SIZE 4 4 512 512 SINGLE
HXD:BST:READ_CNT 4 4 512 512 SINGLE
HXD:BST:DE_BOARD 4 4 512 512 SINGLE
HXD:BST:BOARD 4 4 512 1024 SINGLE
HXD:BST:DATA_SEQ 4 4 512 512 SINGLE
HXD:BST:TIME 4 4 512 1024 SINGLE
HXD:BST:TH0 128 128 512 512 SINGLE
HXD:BST:TH1 128 128 512 512 SINGLE
HXD:BST:TH2 128 128 512 512 SINGLE
HXD:BST:TH3 128 128 512 512 SINGLE
HXD:BST:PH 216 216 512 512 SINGLE
HXD:BST:PI 216 216 512 0 SINGLE
HXD:BST:OVER_FLOW 4 4 512 512 SINGLE
HXD:BST:PSEUDO 4 4 512 512 SINGLE
HXD:BST:T_ANT 20 20 512 512 SINGLE
HXD:BST:UD 4 4 512 512 SINGLE
HXD:BST:DEAD_TIME 4 4 512 512 SINGLE
HXD:BST:SUM_LD 4 4 512 512 SINGLE
HXD:BST:W_ANT 20 20 512 512 SINGLE
HXD:BST:QUARITY 4 4 512 0 SINGLE
HXDbstFitsRead:IROW 4 0 0 0 SINGLE
HXDbstFitsRead:FILE_P 8 4 1 1 SINGLE
HXDbstFitsRead:FILE_NAME 1999 27 1 0 SINGLE
HXDbstFitsRead:NEW_FILE_NAME 1999 19 1 1 SINGLE
HXDbstFitsRead:IOMODE 4 4 1 3 SINGLE
HXDbstFitsRead:NROW 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 578 512 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXDfbstTime:HXD_SYS_LATCH_TI 4 4 33 512 SINGLE
HXDfbstTime:HXD_AE_TM_LATCH_TM 4 4 33 512 SINGLE
HXDfbstTime:HXD_SYS_TIME 8 8 33 0 SINGLE
HXDfbstTime:HXD_HK_TIME 8 8 33 0 SINGLE
HXDfbstTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfbstTime:BSTIDT_FILE_NAME 2000 2000 1 1 SINGLE
HXDfbstTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDbstFitsRead 0.016 0.002 0.018 5.64
[ 2] HXDleapsecInit 0.002 0.001 0.003 0.94
[ 3] HXDgethkInit 0.001 0.000 0.001 0.31
[ 4] HXDfbstTimeFITS 0.040 0.043 0.083 26.02
[ 5] HXDfbstTime 0.163 0.005 0.168 52.66
[ 6] HXD2ndbstFitsWrite 0.019 0.007 0.026 8.15
(others) 0.012 0.008 0.020 6.27
--------------------------------------------------------------------------
TOTAL 0.253 0.066 0.319 100.00
-> hxdbsttime successful for ae803005010hxd_1_bst01.sff.read_iomode,s,h,"create",,,"HXD bst fits input I/O mode : overwrite or create ?" input_name,fr,a,"ae803005010hxd_2_bst01.fff",,,"HXD bst fits file name ?" create_name,f,a,"hxdbsstime_out.evt",,,"HXD bst fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" time_convert_mode,i,h,4,,,"BST TIME: HxdTime2aetime mode ?" bstidt_fname,f,a,"CALDB",,,"input bstidt file name" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdbsttime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDbstFitsRead version 2.0.0
HXDgethkInit version 0.1.0
HXDleapsecInit version 2.0.1
HXDfbstTime version 2.0.0
HXD2ndbstFitsWrite version 2.0.0
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdbstFitsUtil version 2.0.9
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdbstFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDbstFitsRead version 2.0.0
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDfbstTimeFITS version 2.0.0
[ 5] HXDfbstTime version 2.0.0
[ 6] HXD2ndbstFitsWrite version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 513
QUIT: 1 |
<--- [ 1] HXDbstFitsRead version 2.0.0
| OK: 512/513
[ 2] HXDleapsecInit version 2.0.1
| OK: 512/512
[ 3] HXDgethkInit version 0.1.0
| OK: 512/512
[ 4] HXDfbstTimeFITS version 2.0.0
| OK: 512/512
[ 5] HXDfbstTime version 2.0.0
| OK: 512/512
[ 6] HXD2ndbstFitsWrite version 2.0.0
| OK: 512/512
GET: 512
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 58/5000
buffer size : 120000
buffer used : 12960
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdbsttime_yn 4 4 2 3 SINGLE
HXD:PIL:read_iomode 256 6 1 2 SINGLE
HXD:PIL:input_name 256 26 1 2 SINGLE
HXD:PIL:create_name 256 18 1 2 SINGLE
HXD:BST:format_version 4 4 1 2 SINGLE
HXD:PIL:tim_filename 256 15 1 2 SINGLE
HXD:PIL:bstidt_filename 256 112 1 2 SINGLE
HXD:PIL:CALDB_TYPE:bstidt 4 4 1 2 SINGLE
HXD:PIL:time_convert_mode 4 4 1 2 SINGLE
HXD:BST:FRZD_TM 32 32 2 1 SINGLE
HXD:BST:FRTM_CT 16 16 1 1 SINGLE
HXD:BST:TM_MODE 16 16 1 1 SINGLE
HXD:BST:PACKET_AETIME 8 8 512 0 SINGLE
HXD:BST:PACKET_S_TIME 8 8 512 1536 SINGLE
HXD:BST:PACKET_SEC_HEADER 4 4 512 1024 SINGLE
HXD:BST:IBLOCK 4 4 512 512 SINGLE
HXD:BST:ERR_COD 4 4 512 512 SINGLE
HXD:BST:SOFT_FLG 4 4 512 512 SINGLE
HXD:BST:CURRENT_TPU 4 4 512 512 SINGLE
HXD:BST:REST_REQ 4 4 512 512 SINGLE
HXD:BST:DATA_SIZE 4 4 512 512 SINGLE
HXD:BST:READ_CNT 4 4 512 512 SINGLE
HXD:BST:DE_BOARD 4 4 512 512 SINGLE
HXD:BST:BOARD 4 4 512 1024 SINGLE
HXD:BST:DATA_SEQ 4 4 512 512 SINGLE
HXD:BST:TIME 4 4 512 1024 SINGLE
HXD:BST:TH0 128 128 512 512 SINGLE
HXD:BST:TH1 128 128 512 512 SINGLE
HXD:BST:TH2 128 128 512 512 SINGLE
HXD:BST:TH3 128 128 512 512 SINGLE
HXD:BST:PH 216 216 512 512 SINGLE
HXD:BST:PI 216 216 512 0 SINGLE
HXD:BST:OVER_FLOW 4 4 512 512 SINGLE
HXD:BST:PSEUDO 4 4 512 512 SINGLE
HXD:BST:T_ANT 20 20 512 512 SINGLE
HXD:BST:UD 4 4 512 512 SINGLE
HXD:BST:DEAD_TIME 4 4 512 512 SINGLE
HXD:BST:SUM_LD 4 4 512 512 SINGLE
HXD:BST:W_ANT 20 20 512 512 SINGLE
HXD:BST:QUARITY 4 4 512 0 SINGLE
HXDbstFitsRead:IROW 4 0 0 0 SINGLE
HXDbstFitsRead:FILE_P 8 4 1 1 SINGLE
HXDbstFitsRead:FILE_NAME 1999 27 1 0 SINGLE
HXDbstFitsRead:NEW_FILE_NAME 1999 19 1 1 SINGLE
HXDbstFitsRead:IOMODE 4 4 1 3 SINGLE
HXDbstFitsRead:NROW 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 577 512 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXDfbstTime:HXD_SYS_LATCH_TI 4 4 32 512 SINGLE
HXDfbstTime:HXD_AE_TM_LATCH_TM 4 4 33 512 SINGLE
HXDfbstTime:HXD_SYS_TIME 8 8 32 0 SINGLE
HXDfbstTime:HXD_HK_TIME 8 8 33 0 SINGLE
HXDfbstTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfbstTime:BSTIDT_FILE_NAME 2000 2000 1 1 SINGLE
HXDfbstTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDbstFitsRead 0.017 0.001 0.018 5.59
[ 2] HXDleapsecInit 0.002 0.000 0.002 0.62
[ 3] HXDgethkInit 0.001 0.000 0.001 0.31
[ 4] HXDfbstTimeFITS 0.039 0.045 0.084 26.09
[ 5] HXDfbstTime 0.177 0.004 0.181 56.21
[ 6] HXD2ndbstFitsWrite 0.013 0.004 0.017 5.28
(others) 0.014 0.005 0.019 5.90
--------------------------------------------------------------------------
TOTAL 0.263 0.059 0.322 100.00
-> hxdbsttime successful for ae803005010hxd_2_bst01.sff.read_iomode,s,h,"create",,,"HXD bst fits input I/O mode : overwrite or create ?" input_name,fr,a,"ae803005010hxd_2_bst02.fff",,,"HXD bst fits file name ?" create_name,f,a,"hxdbsstime_out.evt",,,"HXD bst fits created file name ?" hklist_name,f,a,"ae803005010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae803005010.tim",,,"input .tim FITS file name (HXDtimeSet)" time_convert_mode,i,h,4,,,"BST TIME: HxdTime2aetime mode ?" bstidt_fname,f,a,"CALDB",,,"input bstidt file name" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdbsttime
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDbstFitsRead version 2.0.0
HXDgethkInit version 0.1.0
HXDleapsecInit version 2.0.1
HXDfbstTime version 2.0.0
HXD2ndbstFitsWrite version 2.0.0
-- Functions by HXD team --
hxdTimeUtil version 2.0.0
hxdbstFitsUtil version 2.0.9
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdbstFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDbstFitsRead version 2.0.0
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDfbstTimeFITS version 2.0.0
[ 5] HXDfbstTime version 2.0.0
[ 6] HXD2ndbstFitsWrite version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae803005010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae803005010hxd_0.hk'
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 513
QUIT: 1 |
<--- [ 1] HXDbstFitsRead version 2.0.0
| OK: 512/513
[ 2] HXDleapsecInit version 2.0.1
| OK: 512/512
[ 3] HXDgethkInit version 0.1.0
| OK: 512/512
[ 4] HXDfbstTimeFITS version 2.0.0
| OK: 512/512
[ 5] HXDfbstTime version 2.0.0
| OK: 512/512
[ 6] HXD2ndbstFitsWrite version 2.0.0
| OK: 512/512
GET: 512
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 58/5000
buffer size : 120000
buffer used : 12960
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdbsttime_yn 4 4 2 3 SINGLE
HXD:PIL:read_iomode 256 6 1 2 SINGLE
HXD:PIL:input_name 256 26 1 2 SINGLE
HXD:PIL:create_name 256 18 1 2 SINGLE
HXD:BST:format_version 4 4 1 2 SINGLE
HXD:PIL:tim_filename 256 15 1 2 SINGLE
HXD:PIL:bstidt_filename 256 112 1 2 SINGLE
HXD:PIL:CALDB_TYPE:bstidt 4 4 1 2 SINGLE
HXD:PIL:time_convert_mode 4 4 1 2 SINGLE
HXD:BST:FRZD_TM 32 32 2 1 SINGLE
HXD:BST:FRTM_CT 16 16 1 1 SINGLE
HXD:BST:TM_MODE 16 16 1 1 SINGLE
HXD:BST:PACKET_AETIME 8 8 512 0 SINGLE
HXD:BST:PACKET_S_TIME 8 8 512 1536 SINGLE
HXD:BST:PACKET_SEC_HEADER 4 4 512 1024 SINGLE
HXD:BST:IBLOCK 4 4 512 512 SINGLE
HXD:BST:ERR_COD 4 4 512 512 SINGLE
HXD:BST:SOFT_FLG 4 4 512 512 SINGLE
HXD:BST:CURRENT_TPU 4 4 512 512 SINGLE
HXD:BST:REST_REQ 4 4 512 512 SINGLE
HXD:BST:DATA_SIZE 4 4 512 512 SINGLE
HXD:BST:READ_CNT 4 4 512 512 SINGLE
HXD:BST:DE_BOARD 4 4 512 512 SINGLE
HXD:BST:BOARD 4 4 512 1024 SINGLE
HXD:BST:DATA_SEQ 4 4 512 512 SINGLE
HXD:BST:TIME 4 4 512 1024 SINGLE
HXD:BST:TH0 128 128 512 512 SINGLE
HXD:BST:TH1 128 128 512 512 SINGLE
HXD:BST:TH2 128 128 512 512 SINGLE
HXD:BST:TH3 128 128 512 512 SINGLE
HXD:BST:PH 216 216 512 512 SINGLE
HXD:BST:PI 216 216 512 0 SINGLE
HXD:BST:OVER_FLOW 4 4 512 512 SINGLE
HXD:BST:PSEUDO 4 4 512 512 SINGLE
HXD:BST:T_ANT 20 20 512 512 SINGLE
HXD:BST:UD 4 4 512 512 SINGLE
HXD:BST:DEAD_TIME 4 4 512 512 SINGLE
HXD:BST:SUM_LD 4 4 512 512 SINGLE
HXD:BST:W_ANT 20 20 512 512 SINGLE
HXD:BST:QUARITY 4 4 512 0 SINGLE
HXDbstFitsRead:IROW 4 0 0 0 SINGLE
HXDbstFitsRead:FILE_P 8 4 1 1 SINGLE
HXDbstFitsRead:FILE_NAME 1999 27 1 0 SINGLE
HXDbstFitsRead:NEW_FILE_NAME 1999 19 1 1 SINGLE
HXDbstFitsRead:IOMODE 4 4 1 3 SINGLE
HXDbstFitsRead:NROW 4 4 1 1 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 577 512 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
HXDfbstTime:HXD_SYS_LATCH_TI 4 4 32 512 SINGLE
HXDfbstTime:HXD_AE_TM_LATCH_TM 4 4 33 512 SINGLE
HXDfbstTime:HXD_SYS_TIME 8 8 32 0 SINGLE
HXDfbstTime:HXD_HK_TIME 8 8 33 0 SINGLE
HXDfbstTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfbstTime:BSTIDT_FILE_NAME 2000 2000 1 1 SINGLE
HXDfbstTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDbstFitsRead 0.016 0.001 0.017 5.26
[ 2] HXDleapsecInit 0.003 0.001 0.004 1.24
[ 3] HXDgethkInit 0.000 0.000 0.000 0.00
[ 4] HXDfbstTimeFITS 0.034 0.050 0.084 26.01
[ 5] HXDfbstTime 0.168 0.009 0.177 54.80
[ 6] HXD2ndbstFitsWrite 0.018 0.004 0.022 6.81
(others) 0.010 0.009 0.019 5.88
--------------------------------------------------------------------------
TOTAL 0.249 0.074 0.323 100.00
-> hxdbsttime successful for ae803005010hxd_2_bst02.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi0_1_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi0_1_3x3n066.fff.infile,f,a,"ae803005010xi0_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_1_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 342487 events )
... 10% ( 34248 / 342487 events )
... 20% ( 68496 / 342487 events )
Event... 100001 (100000)
... 30% ( 102744 / 342487 events )
... 40% ( 136992 / 342487 events )
... 50% ( 171240 / 342487 events )
Event... 200001 (200000)
... 60% ( 205488 / 342487 events )
... 70% ( 239736 / 342487 events )
... 80% ( 273984 / 342487 events )
Event... 300001 (300000)
... 90% ( 308232 / 342487 events )
... 100% ( 342487 / 342487 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267345628.929371 / time start
TSTOP = 267438812.917221 / time stop
TELAPASE = 93183.987851 / elapsed time = TSTOP - TSTART
ONTIME = 56431.992493 / on time = sum of all GTIs
LIVETIME = 56431.992493 / on-source time corrected for CCD exposure
EXPOSURE = 56431.992493 / exposure time
xisEventFitsUtil: rename ./fileO6aGV8-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 342489
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 342488/342489
[ 2] XISreadExp version 1.6
| OK: 342488/342488
[ 3] XISreadEvent version 2.7
| OK: 342487/342488 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 342487/342487
[ 5] XISeditEventFits version 2.1
| OK: 342487/342487
GET: 342487
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
342488 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
342488 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
342488 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
342487 : XIStime:ENTRY
342487 : XIStime:OK
1 : XISeditEventFits:BEGIN
342487 : XISeditEventFits:ENTRY
342487 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 342487 342487 SINGLE
XIS:RAWX 4 4 342487 342487 SINGLE
XIS:RAWY 4 4 342487 342487 SINGLE
XIS:ACTX 4 4 342487 342487 SINGLE
XIS:ACTY 4 4 342487 342487 SINGLE
XIS:DETX 4 4 342487 342487 SINGLE
XIS:DETY 4 4 342487 342487 SINGLE
XIS:FOCX 4 4 342487 342487 SINGLE
XIS:FOCY 4 4 342487 342487 SINGLE
XIS:X 4 4 342487 342487 SINGLE
XIS:Y 4 4 342487 342487 SINGLE
XIS:STATUS 4 4 342487 342487 SINGLE
XIS:PHAS 36 36 342487 342487 SINGLE
XIS:PHANOCTI 4 4 342487 342487 SINGLE
XIS:PHA 4 4 342487 342487 SINGLE
XIS:PI 4 4 342487 342487 SINGLE
XIS:GRADE 4 4 342487 342487 SINGLE
XIS:P_OUTER_MOST 4 4 342487 342487 SINGLE
XIS:SUM_OUTER_MOST 4 4 342487 342487 SINGLE
XIS:AEDATE 4 4 684974 342487 FAMILY
XIS:EXPTIME 4 4 342487 684974 FAMILY
XIS:EXPTIME_AETIME 8 8 684974 342487 SINGLE
XIS:S_TIME 8 8 342487 684974 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342487 684974 FAMILY
XIS:EVENT_SEQ_NO 4 4 342487 342487 SINGLE
XIS:TIME 8 8 684974 342487 SINGLE
XIS:EXP_CENT_AETIME 8 8 684974 342487 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 342489 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.221 0.172 0.393 2.97
[ 2] XISreadExp 0.083 0.165 0.248 1.87
[ 3] XISreadEvent 5.684 0.343 6.027 45.55
[ 4] XIStime 0.830 0.215 1.045 7.90
[ 5] XISeditEventFits 5.046 0.456 5.502 41.58
(others) 0.010 0.008 0.018 0.14
--------------------------------------------------------------------------
TOTAL 11.874 1.359 13.233 100.00
-> xistime successful on ae803005010xi0_1_3x3n066.sff.infile,f,a,"ae803005010xi0_1_3x3n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_1_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 584.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 497.50 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 844.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 765.00 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 796.49 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 697.97 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 342487 events )
... 10% ( 34248 / 342487 events )
... 20% ( 68496 / 342487 events )
Event... 100001 (100000)
... 30% ( 102744 / 342487 events )
... 40% ( 136992 / 342487 events )
... 50% ( 171240 / 342487 events )
Event... 200001 (200000)
... 60% ( 205488 / 342487 events )
... 70% ( 239736 / 342487 events )
... 80% ( 273984 / 342487 events )
Event... 300001 (300000)
... 90% ( 308232 / 342487 events )
... 100% ( 342487 / 342487 events )
xisEventFitsUtil: rename ./filef0yEM9-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 342489
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 342488/342489
[ 2] XISreadExp version 1.6
| OK: 342488/342488
[ 3] XISreadEvent version 2.7
| OK: 342487/342488 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 342487/342487
[ 5] XISeditEventFits version 2.1
| OK: 342487/342487
GET: 342487
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
342488 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
342488 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
342488 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
342487 : XIScoord:ENTRY
342487 : XIScoord:OK
1 : XISeditEventFits:BEGIN
342487 : XISeditEventFits:ENTRY
342487 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 342487 684974 SINGLE
XIS:RAWX 4 4 342487 684974 SINGLE
XIS:RAWY 4 4 342487 684974 SINGLE
XIS:ACTX 4 4 684974 342487 SINGLE
XIS:ACTY 4 4 684974 342487 SINGLE
XIS:DETX 4 4 684974 342487 SINGLE
XIS:DETY 4 4 684974 342487 SINGLE
XIS:FOCX 4 4 684974 342487 SINGLE
XIS:FOCY 4 4 684974 342487 SINGLE
XIS:X 4 4 684974 342487 SINGLE
XIS:Y 4 4 684974 342487 SINGLE
XIS:STATUS 4 4 342487 342487 SINGLE
XIS:PHAS 36 36 342487 342487 SINGLE
XIS:PHANOCTI 4 4 342487 342487 SINGLE
XIS:PHA 4 4 342487 342487 SINGLE
XIS:PI 4 4 342487 342487 SINGLE
XIS:GRADE 4 4 342487 342487 SINGLE
XIS:P_OUTER_MOST 4 4 342487 342487 SINGLE
XIS:SUM_OUTER_MOST 4 4 342487 342487 SINGLE
XIS:AEDATE 4 4 342487 342487 FAMILY
XIS:EXPTIME 4 4 342487 342487 FAMILY
XIS:EXPTIME_AETIME 8 8 342487 342487 SINGLE
XIS:S_TIME 8 8 342487 342487 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342487 342487 FAMILY
XIS:EVENT_SEQ_NO 4 4 342487 342487 SINGLE
XIS:TIME 8 8 342487 684974 SINGLE
XIS:EXP_CENT_AETIME 8 8 342487 342487 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 342489 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.266 0.206 0.472 3.12
[ 2] XISreadExp 0.070 0.164 0.234 1.55
[ 3] XISreadEvent 5.672 0.280 5.952 39.39
[ 4] XIScoord 2.405 0.317 2.722 18.01
[ 5] XISeditEventFits 5.150 0.555 5.705 37.76
(others) 0.017 0.008 0.025 0.17
--------------------------------------------------------------------------
TOTAL 13.580 1.530 15.110 100.00
-> xiscoord successful on ae803005010xi0_1_3x3n066.sff.infile,f,a,"ae803005010xi0_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_1_3x3n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 342487 events )
... 10% ( 34248 / 342487 events )
... 20% ( 68496 / 342487 events )
Event... 100001 (100000)
... 30% ( 102744 / 342487 events )
... 40% ( 136992 / 342487 events )
... 50% ( 171240 / 342487 events )
Event... 200001 (200000)
... 60% ( 205488 / 342487 events )
... 70% ( 239736 / 342487 events )
... 80% ( 273984 / 342487 events )
Event... 300001 (300000)
... 90% ( 308232 / 342487 events )
... 100% ( 342487 / 342487 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 5797 1.69
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 7943 2.32
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 4035 1.18
B8 256 1PIX_FROM_SEGBOUNDARY 1729 0.50
B9 512 SCI_3rd_TRAILING_ROW 4101 1.20
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 8195 2.39
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 4364 1.27
B16 65536 CALMASK 40572 11.85
B17 131072 SEGBOUNDARY 7663 2.24
B18 262144 SCI_2nd_TRAILING_ROW 4217 1.23
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 17023 4.97
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 47214 13.79
B29 536870912 SCI_TRAILING_ROW 44135 12.89
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 103 0.03
### 0 CLEAN_ZERO 177429 51.81
--------------------------------------------------------------
+++ 4294967295 SUM 374520 109.35
::: 524287 SAFE(B0-18) 236379 69.02
>>> 4294967295 TOTAL 342487 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileKpg4hW-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 342489
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 342488/342489
[ 2] XISreadExp version 1.6
| OK: 342488/342488
[ 3] XISreadEvent version 2.7
| OK: 342487/342488 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 342487/342487
[ 5] XISeditEventFits version 2.1
| OK: 342487/342487
GET: 342487
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
342488 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
342488 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
342488 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
342487 : XISputPixelQuality:ENTRY
342487 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
342487 : XISeditEventFits:ENTRY
342487 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 342487 342487 SINGLE
XIS:RAWX 4 4 342487 342487 SINGLE
XIS:RAWY 4 4 342487 684974 SINGLE
XIS:ACTX 4 4 342487 684974 SINGLE
XIS:ACTY 4 4 342487 684974 SINGLE
XIS:DETX 4 4 342487 342487 SINGLE
XIS:DETY 4 4 342487 342487 SINGLE
XIS:FOCX 4 4 342487 342487 SINGLE
XIS:FOCY 4 4 342487 342487 SINGLE
XIS:X 4 4 342487 342487 SINGLE
XIS:Y 4 4 342487 342487 SINGLE
XIS:STATUS 4 4 684974 342487 SINGLE
XIS:PHAS 36 36 342487 342487 SINGLE
XIS:PHANOCTI 4 4 342487 342487 SINGLE
XIS:PHA 4 4 342487 342487 SINGLE
XIS:PI 4 4 342487 342487 SINGLE
XIS:GRADE 4 4 342487 342487 SINGLE
XIS:P_OUTER_MOST 4 4 342487 342487 SINGLE
XIS:SUM_OUTER_MOST 4 4 342487 342487 SINGLE
XIS:AEDATE 4 4 342487 342487 FAMILY
XIS:EXPTIME 4 4 342487 342487 FAMILY
XIS:EXPTIME_AETIME 8 8 342487 342487 SINGLE
XIS:S_TIME 8 8 342487 342487 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342487 342487 FAMILY
XIS:EVENT_SEQ_NO 4 4 342487 342487 SINGLE
XIS:TIME 8 8 342487 684974 SINGLE
XIS:EXP_CENT_AETIME 8 8 342487 342487 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 342489 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.238 0.161 0.399 3.15
[ 2] XISreadExp 0.073 0.165 0.238 1.88
[ 3] XISreadEvent 5.410 0.197 5.607 44.31
[ 4] XISputPixelQuality 0.466 0.165 0.631 4.99
[ 5] XISeditEventFits 4.932 0.830 5.762 45.54
(others) 0.008 0.008 0.016 0.13
--------------------------------------------------------------------------
TOTAL 11.127 1.526 12.653 100.00
-> xisputpixelquality successful on ae803005010xi0_1_3x3n066.sff.infile,f,a,"ae803005010xi0_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi0_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_1_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi0_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi0_0.hk, S0_VDCHK18_CAL, nrows=5662
nvalid=5326 nrej=336 time=267336981.4 - 267532621.4 [s]
AE-temp: average=20.175 sigma=1.611 min=16.759 max=22.971 [degC]
Event... 1 (0)
... 0% ( 0 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 34248 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 68496 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 102744 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 136992 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 171240 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 205488 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 239736 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 273984 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 308232 / 342487 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 342487 / 342487 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileh5Awfg-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 342489
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 342488/342489
[ 2] XISreadExp version 1.6
| OK: 342488/342488
[ 3] XISreadEvent version 2.7
| OK: 342487/342488 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 342487/342487
[ 5] XIStrailCorrection version 3.1
| OK: 342487/342487
[ 6] XISctiCorrection version 3.4
| OK: 342487/342487
[ 7] XISgrade version 3.3
| OK: 342487/342487
[ 8] XISpha2pi version 3.2
| OK: 342487/342487
[ 9] XISeditEventFits version 2.1
| OK: 342487/342487
GET: 342487
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
342488 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
342488 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
342488 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
342487 : XISpreparePHASCORR:ENTRY
342487 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
342487 : XIStrailCorrection:ENTRY
342487 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
342487 : XISctiCorrection:ENTRY
342487 : XISctiCorrection:OK
1 : XISgrade:BEGIN
342487 : XISgrade:ENTRY
342487 : XISgrade:OK
1 : XISpha2pi:BEGIN
342487 : XISpha2pi:ENTRY
342487 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
342487 : XISeditEventFits:ENTRY
342487 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 1369954 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 342487 1712435 SINGLE
XIS:RAWX 4 4 342487 1027461 SINGLE
XIS:RAWY 4 4 342487 684974 SINGLE
XIS:ACTX 4 4 342487 342487 SINGLE
XIS:ACTY 4 4 342487 1027461 SINGLE
XIS:DETX 4 4 342487 342487 SINGLE
XIS:DETY 4 4 342487 342487 SINGLE
XIS:FOCX 4 4 342487 342487 SINGLE
XIS:FOCY 4 4 342487 342487 SINGLE
XIS:X 4 4 342487 342487 SINGLE
XIS:Y 4 4 342487 342487 SINGLE
XIS:STATUS 4 4 342487 342487 SINGLE
XIS:PHAS 36 36 342487 684974 SINGLE
XIS:PHANOCTI 4 4 684974 342487 SINGLE
XIS:PHA 4 4 684974 342487 SINGLE
XIS:PI 4 4 684974 342487 SINGLE
XIS:GRADE 4 4 684974 342487 SINGLE
XIS:P_OUTER_MOST 4 4 342487 684974 SINGLE
XIS:SUM_OUTER_MOST 4 4 342487 684974 SINGLE
XIS:AEDATE 4 4 342487 342487 FAMILY
XIS:EXPTIME 4 4 342487 342487 FAMILY
XIS:EXPTIME_AETIME 8 8 342487 342487 SINGLE
XIS:S_TIME 8 8 342487 342487 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342487 342487 FAMILY
XIS:EVENT_SEQ_NO 4 4 342487 342487 SINGLE
XIS:TIME 8 8 342487 1712435 SINGLE
XIS:EXP_CENT_AETIME 8 8 342487 342487 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 342489 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 684974 342487 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 342487 342487 SINGLE
XIS:PHASCORR 72 72 1027461 1027461 SINGLE
XIS:PHA:DOUBLE 8 8 342487 342487 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.277 0.180 0.457 1.24
[ 2] XISreadExp 0.103 0.184 0.287 0.78
[ 3] XISreadEvent 5.802 0.286 6.088 16.51
[ 4] XISpreparePHASCORR 0.302 0.158 0.460 1.25
[ 5] XIStrailCorrection 0.731 0.186 0.917 2.49
[ 6] XISctiCorrection 14.534 6.272 20.806 56.41
[ 7] XISgrade 1.131 0.174 1.305 3.54
[ 8] XISpha2pi 0.754 0.172 0.926 2.51
[ 9] XISeditEventFits 5.123 0.492 5.615 15.22
(others) 0.018 0.007 0.025 0.07
--------------------------------------------------------------------------
TOTAL 28.775 8.111 36.885 100.00
-> xispi successful on ae803005010xi0_1_3x3n066.sff.infile,f,a,"ae803005010xi0_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi0_1_3x3n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_3x3n066.sff
OUTFILE ae803005010xi0_1_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi0_1_3x3n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 342487 events )
frame time jump, t=267347716.929 - 267349868.929 by 2152.000 s
frame time jump, t=267353836.928 - 267355620.928 by 1784.000 s
... 10% ( 34248 / 342487 events )
frame time jump, t=267359956.927 - 267361372.927 by 1416.000 s
... 20% ( 68496 / 342487 events )
saturated frame, t=267366108.927 - 267366116.927 7 (338/345) seg=1111
saturated frame, t=267366132.927 - 267366140.927 163 (152/315) seg=1111
frame time jump, t=267366140.927 - 267367108.927 by 968.000 s
saturated frame, t=267367108.927 - 267367116.927 2170 (326/2496) seg=1111
frame time jump, t=267370732.926 - 267372876.926 by 2144.000 s
... 30% ( 102744 / 342487 events )
frame time jump, t=267376492.925 - 267378636.925 by 2144.000 s
... 40% ( 136992 / 342487 events )
frame time jump, t=267382236.925 - 267384380.924 by 2144.000 s
saturated frame, t=267385012.924 - 267385020.924 167 (340/507) seg=1111
... 50% ( 171240 / 342487 events )
frame time jump, t=267387980.924 - 267390124.924 by 2144.000 s
frame time jump, t=267393740.923 - 267395884.923 by 2144.000 s
... 60% ( 205488 / 342487 events )
frame time jump, t=267399500.922 - 267401644.922 by 2144.000 s
... 70% ( 239736 / 342487 events )
frame time jump, t=267403852.922 - 267404940.922 by 1088.000 s
frame time jump, t=267405076.922 - 267407396.921 by 2320.000 s
frame time jump, t=267409716.921 - 267413140.921 by 3424.000 s
saturated frame, t=267414148.920 - 267414156.920 253 (342/595) seg=1111
... 80% ( 273984 / 342487 events )
frame time jump, t=267415652.920 - 267418892.920 by 3240.000 s
frame time jump, t=267421756.919 - 267424644.919 by 2888.000 s
... 90% ( 308232 / 342487 events )
frame time jump, t=267427908.919 - 267430396.918 by 2488.000 s
frame time jump, t=267434028.918 - 267436148.918 by 2120.000 s
... 100% ( 342487 / 342487 events )
XIScheckEventNo: GTI file 'ae803005010xi0_1_3x3n066.gti' created
N_FRAMES = 7054 / number of frames in the input event file
N_TESTED = 7054 / number of non-zero frames tested
N_PASSED = 7049 / number of frames passed the test
N_T_JUMP = 17 / number of frames detected time jump
N_SATURA = 5 / number of frames telemetry saturated
T_TESTED = 56432.000000 / exposure of non-zero frames tested
T_PASSED = 56392.000000 / exposure of frames passed the test
T_T_JUMP = 36751.995358 / loss of exposure due to time jump
T_SATURA = 40.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7055
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 7054/7055
[ 2] XISreadExp version 1.6
| OK: 7054/7054
[ 3] XISreadEvent version 2.7 <------- LOOP: 342487
| OK: 342487/349541 -------> SKIP: 7054
[ 4] XIScheckEventNo version 1.2
| OK: 342487/342487
GET: 342487
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
7054 : XISreadFrame:ENTRY
7054 : XISreadFrame:OK
1 : XISreadExp:BEGIN
7054 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
349541 : XISreadEvent:ENTRY
349540 : XISreadEvent:OK
7054 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
342487 : XIScheckEventNo:ENTRY
342487 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 7054 349541 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 7054 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 7054 349541 SINGLE
XIS:FRAMES:S_TIME 8 8 7054 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 7054 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 7054 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 7054 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 7054 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 7054 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 7054 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 7054 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 7054 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 7054 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 7054 7054 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 7054 0 SINGLE
XIS:FRAMES:BIAS 16 16 7054 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 7054 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 7054 0 SINGLE
XIS:FRAMES:AEDATE 4 4 7054 349541 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 7054 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 7054 342487 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 7054 7054 SINGLE
XIS:FRAMES:TIME 8 8 7054 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 342487 342487 SINGLE
XIS:RAWX 4 4 342487 0 SINGLE
XIS:RAWY 4 4 342487 0 SINGLE
XIS:ACTX 4 4 342487 0 SINGLE
XIS:ACTY 4 4 342487 0 SINGLE
XIS:DETX 4 4 342487 0 SINGLE
XIS:DETY 4 4 342487 0 SINGLE
XIS:FOCX 4 4 342487 0 SINGLE
XIS:FOCY 4 4 342487 0 SINGLE
XIS:X 4 4 342487 0 SINGLE
XIS:Y 4 4 342487 0 SINGLE
XIS:STATUS 4 4 342487 0 SINGLE
XIS:PHAS 36 36 342487 0 SINGLE
XIS:PHANOCTI 4 4 342487 0 SINGLE
XIS:PHA 4 4 342487 0 SINGLE
XIS:PI 4 4 342487 0 SINGLE
XIS:GRADE 4 4 342487 0 SINGLE
XIS:P_OUTER_MOST 4 4 342487 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 342487 0 SINGLE
XIS:AEDATE 4 4 342487 349540 FAMILY
XIS:EXPTIME 4 4 342487 349540 FAMILY
XIS:EXPTIME_AETIME 8 8 342487 0 SINGLE
XIS:S_TIME 8 8 342487 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342487 349540 FAMILY
XIS:EVENT_SEQ_NO 4 4 342487 349540 SINGLE
XIS:TIME 8 8 342487 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 342487 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 1.639 0.012 1.651 16.36
[ 2] XISreadExp 0.009 0.006 0.015 0.15
[ 3] XISreadEvent 7.860 0.212 8.072 79.98
[ 4] XIScheckEventNo 0.178 0.158 0.336 3.33
(others) 0.012 0.007 0.019 0.19
--------------------------------------------------------------------------
TOTAL 9.698 0.395 10.092 100.00
-> xisgtigen successful on ae803005010xi0_1_3x3n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi0_1_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi0_1_5x5n066.fff.infile,f,a,"ae803005010xi0_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_1_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 53532 events )
... 10% ( 5353 / 53532 events )
... 20% ( 10706 / 53532 events )
... 30% ( 16059 / 53532 events )
... 40% ( 21412 / 53532 events )
... 50% ( 26765 / 53532 events )
... 60% ( 32118 / 53532 events )
... 70% ( 37471 / 53532 events )
... 80% ( 42824 / 53532 events )
... 90% ( 48177 / 53532 events )
... 100% ( 53532 / 53532 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267336980.930548 / time start
TSTOP = 267345628.929372 / time stop
TELAPASE = 8647.998823 / elapsed time = TSTOP - TSTART
ONTIME = 7199.999036 / on time = sum of all GTIs
LIVETIME = 7199.999036 / on-source time corrected for CCD exposure
EXPOSURE = 7199.999036 / exposure time
xisEventFitsUtil: rename ./file6oGGiK-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 53534
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 53533/53534
[ 2] XISreadExp version 1.6
| OK: 53533/53533
[ 3] XISreadEvent version 2.7
| OK: 53532/53533 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 53532/53532
[ 5] XISeditEventFits version 2.1
| OK: 53532/53532
GET: 53532
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
53533 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
53533 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
53533 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
53532 : XIStime:ENTRY
53532 : XIStime:OK
1 : XISeditEventFits:BEGIN
53532 : XISeditEventFits:ENTRY
53532 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 53532 53532 SINGLE
XIS:RAWX 4 4 53532 53532 SINGLE
XIS:RAWY 4 4 53532 53532 SINGLE
XIS:ACTX 4 4 53532 53532 SINGLE
XIS:ACTY 4 4 53532 53532 SINGLE
XIS:DETX 4 4 53532 53532 SINGLE
XIS:DETY 4 4 53532 53532 SINGLE
XIS:FOCX 4 4 53532 53532 SINGLE
XIS:FOCY 4 4 53532 53532 SINGLE
XIS:X 4 4 53532 53532 SINGLE
XIS:Y 4 4 53532 53532 SINGLE
XIS:STATUS 4 4 53532 53532 SINGLE
XIS:PHAS 100 100 53532 53532 SINGLE
XIS:PHANOCTI 4 4 53532 53532 SINGLE
XIS:PHA 4 4 53532 53532 SINGLE
XIS:PI 4 4 53532 53532 SINGLE
XIS:GRADE 4 4 53532 53532 SINGLE
XIS:AEDATE 4 4 107064 53532 FAMILY
XIS:EXPTIME 4 4 53532 107064 FAMILY
XIS:EXPTIME_AETIME 8 8 107064 53532 SINGLE
XIS:S_TIME 8 8 53532 107064 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 53532 107064 FAMILY
XIS:EVENT_SEQ_NO 4 4 53532 53532 SINGLE
XIS:TIME 8 8 107064 53532 SINGLE
XIS:EXP_CENT_AETIME 8 8 107064 53532 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 53534 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.042 0.032 0.074 3.44
[ 2] XISreadExp 0.017 0.026 0.043 2.00
[ 3] XISreadEvent 0.852 0.056 0.908 42.17
[ 4] XIStime 0.251 0.033 0.284 13.19
[ 5] XISeditEventFits 0.746 0.082 0.828 38.46
(others) 0.005 0.011 0.016 0.74
--------------------------------------------------------------------------
TOTAL 1.913 0.240 2.153 100.00
-> xistime successful on ae803005010xi0_1_5x5n066.sff.infile,f,a,"ae803005010xi0_1_5x5n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_1_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 0
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 584.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 497.50 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 844.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 765.00 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 796.49 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 697.97 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 53532 events )
... 10% ( 5353 / 53532 events )
... 20% ( 10706 / 53532 events )
... 30% ( 16059 / 53532 events )
... 40% ( 21412 / 53532 events )
... 50% ( 26765 / 53532 events )
... 60% ( 32118 / 53532 events )
... 70% ( 37471 / 53532 events )
... 80% ( 42824 / 53532 events )
... 90% ( 48177 / 53532 events )
... 100% ( 53532 / 53532 events )
xisEventFitsUtil: rename ./fileI3qlNe-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 53534
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 53533/53534
[ 2] XISreadExp version 1.6
| OK: 53533/53533
[ 3] XISreadEvent version 2.7
| OK: 53532/53533 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 53532/53532
[ 5] XISeditEventFits version 2.1
| OK: 53532/53532
GET: 53532
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
53533 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
53533 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
53533 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
53532 : XIScoord:ENTRY
53532 : XIScoord:OK
1 : XISeditEventFits:BEGIN
53532 : XISeditEventFits:ENTRY
53532 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 53532 107064 SINGLE
XIS:RAWX 4 4 53532 107064 SINGLE
XIS:RAWY 4 4 53532 107064 SINGLE
XIS:ACTX 4 4 107064 53532 SINGLE
XIS:ACTY 4 4 107064 53532 SINGLE
XIS:DETX 4 4 107064 53532 SINGLE
XIS:DETY 4 4 107064 53532 SINGLE
XIS:FOCX 4 4 107064 53532 SINGLE
XIS:FOCY 4 4 107064 53532 SINGLE
XIS:X 4 4 107064 53532 SINGLE
XIS:Y 4 4 107064 53532 SINGLE
XIS:STATUS 4 4 53532 53532 SINGLE
XIS:PHAS 100 100 53532 53532 SINGLE
XIS:PHANOCTI 4 4 53532 53532 SINGLE
XIS:PHA 4 4 53532 53532 SINGLE
XIS:PI 4 4 53532 53532 SINGLE
XIS:GRADE 4 4 53532 53532 SINGLE
XIS:AEDATE 4 4 53532 53532 FAMILY
XIS:EXPTIME 4 4 53532 53532 FAMILY
XIS:EXPTIME_AETIME 8 8 53532 53532 SINGLE
XIS:S_TIME 8 8 53532 53532 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 53532 53532 FAMILY
XIS:EVENT_SEQ_NO 4 4 53532 53532 SINGLE
XIS:TIME 8 8 53532 107064 SINGLE
XIS:EXP_CENT_AETIME 8 8 53532 53532 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 53534 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.044 0.026 0.070 2.96
[ 2] XISreadExp 0.011 0.039 0.050 2.11
[ 3] XISreadEvent 0.816 0.065 0.881 37.22
[ 4] XIScoord 0.378 0.067 0.445 18.80
[ 5] XISeditEventFits 0.813 0.087 0.900 38.02
(others) 0.013 0.008 0.021 0.89
--------------------------------------------------------------------------
TOTAL 2.075 0.292 2.367 100.00
-> xiscoord successful on ae803005010xi0_1_5x5n066.sff.infile,f,a,"ae803005010xi0_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_1_5x5n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 53532 events )
... 10% ( 5353 / 53532 events )
... 20% ( 10706 / 53532 events )
... 30% ( 16059 / 53532 events )
... 40% ( 21412 / 53532 events )
... 50% ( 26765 / 53532 events )
... 60% ( 32118 / 53532 events )
... 70% ( 37471 / 53532 events )
... 80% ( 42824 / 53532 events )
... 90% ( 48177 / 53532 events )
... 100% ( 53532 / 53532 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 920 1.72
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 1261 2.36
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 611 1.14
B8 256 1PIX_FROM_SEGBOUNDARY 310 0.58
B9 512 SCI_3rd_TRAILING_ROW 444 0.83
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 1296 2.42
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 454 0.85
B16 65536 CALMASK 4611 8.61
B17 131072 SEGBOUNDARY 808 1.51
B18 262144 SCI_2nd_TRAILING_ROW 419 0.78
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 4361 8.15
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 14903 27.84
B29 536870912 SCI_TRAILING_ROW 12244 22.87
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 10 0.02
### 0 CLEAN_ZERO 18246 34.08
--------------------------------------------------------------
+++ 4294967295 SUM 60898 113.76
::: 524287 SAFE(B0-18) 24449 45.67
>>> 4294967295 TOTAL 53532 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileted4ta-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 53534
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 53533/53534
[ 2] XISreadExp version 1.6
| OK: 53533/53533
[ 3] XISreadEvent version 2.7
| OK: 53532/53533 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 53532/53532
[ 5] XISeditEventFits version 2.1
| OK: 53532/53532
GET: 53532
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
53533 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
53533 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
53533 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
53532 : XISputPixelQuality:ENTRY
53532 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
53532 : XISeditEventFits:ENTRY
53532 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 53532 53532 SINGLE
XIS:RAWX 4 4 53532 53532 SINGLE
XIS:RAWY 4 4 53532 107064 SINGLE
XIS:ACTX 4 4 53532 107064 SINGLE
XIS:ACTY 4 4 53532 107064 SINGLE
XIS:DETX 4 4 53532 53532 SINGLE
XIS:DETY 4 4 53532 53532 SINGLE
XIS:FOCX 4 4 53532 53532 SINGLE
XIS:FOCY 4 4 53532 53532 SINGLE
XIS:X 4 4 53532 53532 SINGLE
XIS:Y 4 4 53532 53532 SINGLE
XIS:STATUS 4 4 107064 53532 SINGLE
XIS:PHAS 100 100 53532 53532 SINGLE
XIS:PHANOCTI 4 4 53532 53532 SINGLE
XIS:PHA 4 4 53532 53532 SINGLE
XIS:PI 4 4 53532 53532 SINGLE
XIS:GRADE 4 4 53532 53532 SINGLE
XIS:AEDATE 4 4 53532 53532 FAMILY
XIS:EXPTIME 4 4 53532 53532 FAMILY
XIS:EXPTIME_AETIME 8 8 53532 53532 SINGLE
XIS:S_TIME 8 8 53532 53532 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 53532 53532 FAMILY
XIS:EVENT_SEQ_NO 4 4 53532 53532 SINGLE
XIS:TIME 8 8 53532 107064 SINGLE
XIS:EXP_CENT_AETIME 8 8 53532 53532 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 53534 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.032 0.027 0.059 2.98
[ 2] XISreadExp 0.013 0.026 0.039 1.97
[ 3] XISreadEvent 0.817 0.023 0.840 42.36
[ 4] XISputPixelQuality 0.122 0.035 0.157 7.92
[ 5] XISeditEventFits 0.755 0.116 0.871 43.92
(others) 0.010 0.007 0.017 0.86
--------------------------------------------------------------------------
TOTAL 1.749 0.234 1.983 100.00
-> xisputpixelquality successful on ae803005010xi0_1_5x5n066.sff.infile,f,a,"ae803005010xi0_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi0_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_1_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi0_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi0_0.hk, S0_VDCHK18_CAL, nrows=5662
nvalid=5326 nrej=336 time=267336981.4 - 267532621.4 [s]
AE-temp: average=20.175 sigma=1.611 min=16.759 max=22.971 [degC]
Event... 1 (0)
... 0% ( 0 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 5353 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 10706 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 16059 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 21412 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 26765 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 32118 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 37471 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 42824 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 48177 / 53532 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 53532 / 53532 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filed23udn-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 53534
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 53533/53534
[ 2] XISreadExp version 1.6
| OK: 53533/53533
[ 3] XISreadEvent version 2.7
| OK: 53532/53533 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 53532/53532
[ 5] XIStrailCorrection version 3.1
| OK: 53532/53532
[ 6] XISctiCorrection version 3.4
| OK: 53532/53532
[ 7] XISgrade version 3.3
| OK: 53532/53532
[ 8] XISpha2pi version 3.2
| OK: 53532/53532
[ 9] XISeditEventFits version 2.1
| OK: 53532/53532
GET: 53532
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
53533 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
53533 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
53533 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
53532 : XISpreparePHASCORR:ENTRY
53532 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
53532 : XIStrailCorrection:ENTRY
53532 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
53532 : XISctiCorrection:ENTRY
53532 : XISctiCorrection:OK
1 : XISgrade:BEGIN
53532 : XISgrade:ENTRY
53532 : XISgrade:OK
1 : XISpha2pi:BEGIN
53532 : XISpha2pi:ENTRY
53532 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
53532 : XISeditEventFits:ENTRY
53532 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 189/5000
buffer size : 120000
buffer used : 4768
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 214134 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 53532 267660 SINGLE
XIS:RAWX 4 4 53532 160596 SINGLE
XIS:RAWY 4 4 53532 107064 SINGLE
XIS:ACTX 4 4 53532 53532 SINGLE
XIS:ACTY 4 4 53532 160596 SINGLE
XIS:DETX 4 4 53532 53532 SINGLE
XIS:DETY 4 4 53532 53532 SINGLE
XIS:FOCX 4 4 53532 53532 SINGLE
XIS:FOCY 4 4 53532 53532 SINGLE
XIS:X 4 4 53532 53532 SINGLE
XIS:Y 4 4 53532 53532 SINGLE
XIS:STATUS 4 4 53532 53532 SINGLE
XIS:PHAS 100 100 53532 107064 SINGLE
XIS:PHANOCTI 4 4 107064 53532 SINGLE
XIS:PHA 4 4 107064 53532 SINGLE
XIS:PI 4 4 107064 53532 SINGLE
XIS:GRADE 4 4 107064 53532 SINGLE
XIS:AEDATE 4 4 53532 53532 FAMILY
XIS:EXPTIME 4 4 53532 53532 FAMILY
XIS:EXPTIME_AETIME 8 8 53532 53532 SINGLE
XIS:S_TIME 8 8 53532 53532 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 53532 53532 FAMILY
XIS:EVENT_SEQ_NO 4 4 53532 53532 SINGLE
XIS:TIME 8 8 53532 267660 SINGLE
XIS:EXP_CENT_AETIME 8 8 53532 53532 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 53534 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 107064 53532 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 53532 53532 SINGLE
XIS:PHASCORR 200 200 160596 160596 SINGLE
XIS:PHA:DOUBLE 8 8 53532 53532 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.048 0.025 0.073 1.18
[ 2] XISreadExp 0.014 0.026 0.040 0.64
[ 3] XISreadEvent 0.894 0.041 0.935 15.05
[ 4] XISpreparePHASCORR 0.038 0.018 0.056 0.90
[ 5] XIStrailCorrection 0.136 0.021 0.157 2.53
[ 6] XISctiCorrection 2.788 0.814 3.601 57.98
[ 7] XISgrade 0.218 0.032 0.250 4.02
[ 8] XISpha2pi 0.165 0.027 0.192 3.09
[ 9] XISeditEventFits 0.796 0.085 0.881 14.18
(others) 0.017 0.009 0.026 0.42
--------------------------------------------------------------------------
TOTAL 5.113 1.098 6.211 100.00
-> xispi successful on ae803005010xi0_1_5x5n066.sff.infile,f,a,"ae803005010xi0_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi0_1_5x5n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_5x5n066.sff
OUTFILE ae803005010xi0_1_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi0_1_5x5n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 53532 events )
... 10% ( 5353 / 53532 events )
saturated frame, t=267337924.930 - 267337932.930 926 (834/1760) seg=1111
saturated frame, t=267337940.930 - 267337948.930 2287 (817/3104) seg=1111
saturated frame, t=267337948.930 - 267337956.930 2107 (814/2921) seg=1111
... 20% ( 10706 / 53532 events )
saturated frame, t=267337980.930 - 267337988.930 2260 (817/3077) seg=1111
saturated frame, t=267337988.930 - 267337996.930 2018 (808/2826) seg=1111
saturated frame, t=267337996.930 - 267338004.930 1941 (808/2749) seg=1111
saturated frame, t=267338004.930 - 267338012.930 1911 (808/2719) seg=1111
saturated frame, t=267338012.930 - 267338020.930 1939 (808/2747) seg=1111
saturated frame, t=267338020.930 - 267338028.930 1953 (808/2761) seg=1111
... 30% ( 16059 / 53532 events )
saturated frame, t=267338028.930 - 267338036.930 1822 (808/2630) seg=1111
saturated frame, t=267338036.930 - 267338044.930 1866 (808/2674) seg=1111
saturated frame, t=267338044.930 - 267338052.930 2140 (810/2950) seg=1111
... 40% ( 21412 / 53532 events )
... 50% ( 26765 / 53532 events )
... 60% ( 32118 / 53532 events )
frame time jump, t=267341612.930 - 267343060.930 by 1448.000 s
... 70% ( 37471 / 53532 events )
saturated frame, t=267343628.930 - 267343636.930 214 (858/1072) seg=1111
saturated frame, t=267343692.930 - 267343700.930 1141 (834/1975) seg=1111
... 80% ( 42824 / 53532 events )
saturated frame, t=267343700.930 - 267343708.930 2160 (815/2975) seg=1111
... 90% ( 48177 / 53532 events )
... 100% ( 53532 / 53532 events )
XIScheckEventNo: GTI file 'ae803005010xi0_1_5x5n066.gti' created
N_FRAMES = 900 / number of frames in the input event file
N_TESTED = 900 / number of non-zero frames tested
N_PASSED = 885 / number of frames passed the test
N_T_JUMP = 1 / number of frames detected time jump
N_SATURA = 15 / number of frames telemetry saturated
T_TESTED = 7200.000000 / exposure of non-zero frames tested
T_PASSED = 7080.000000 / exposure of frames passed the test
T_T_JUMP = 1447.999788 / loss of exposure due to time jump
T_SATURA = 120.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 901
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 900/901
[ 2] XISreadExp version 1.6
| OK: 900/900
[ 3] XISreadEvent version 2.7 <------- LOOP: 53532
| OK: 53532/54432 -------> SKIP: 900
[ 4] XIScheckEventNo version 1.2
| OK: 53532/53532
GET: 53532
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
900 : XISreadFrame:ENTRY
900 : XISreadFrame:OK
1 : XISreadExp:BEGIN
900 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
54432 : XISreadEvent:ENTRY
54431 : XISreadEvent:OK
900 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
53532 : XIScheckEventNo:ENTRY
53532 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 242/5000
buffer size : 120000
buffer used : 6432
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 900 54432 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 900 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 900 54432 SINGLE
XIS:FRAMES:S_TIME 8 8 900 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 900 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 900 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 900 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 900 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 900 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 900 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 900 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 900 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 900 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 900 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 900 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 900 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 900 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 900 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 900 900 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 900 0 SINGLE
XIS:FRAMES:BIAS 16 16 900 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 900 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 900 0 SINGLE
XIS:FRAMES:AEDATE 4 4 900 54432 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 900 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 900 53532 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 900 900 SINGLE
XIS:FRAMES:TIME 8 8 900 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 53532 53532 SINGLE
XIS:RAWX 4 4 53532 0 SINGLE
XIS:RAWY 4 4 53532 0 SINGLE
XIS:ACTX 4 4 53532 0 SINGLE
XIS:ACTY 4 4 53532 0 SINGLE
XIS:DETX 4 4 53532 0 SINGLE
XIS:DETY 4 4 53532 0 SINGLE
XIS:FOCX 4 4 53532 0 SINGLE
XIS:FOCY 4 4 53532 0 SINGLE
XIS:X 4 4 53532 0 SINGLE
XIS:Y 4 4 53532 0 SINGLE
XIS:STATUS 4 4 53532 0 SINGLE
XIS:PHAS 100 100 53532 0 SINGLE
XIS:PHANOCTI 4 4 53532 0 SINGLE
XIS:PHA 4 4 53532 0 SINGLE
XIS:PI 4 4 53532 0 SINGLE
XIS:GRADE 4 4 53532 0 SINGLE
XIS:AEDATE 4 4 53532 54431 FAMILY
XIS:EXPTIME 4 4 53532 54431 FAMILY
XIS:EXPTIME_AETIME 8 8 53532 0 SINGLE
XIS:S_TIME 8 8 53532 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 53532 54431 FAMILY
XIS:EVENT_SEQ_NO 4 4 53532 54431 SINGLE
XIS:TIME 8 8 53532 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 53532 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.227 0.002 0.229 15.68
[ 2] XISreadExp 0.002 0.000 0.002 0.14
[ 3] XISreadEvent 1.108 0.034 1.142 78.22
[ 4] XIScheckEventNo 0.035 0.033 0.068 4.66
(others) 0.013 0.006 0.019 1.30
--------------------------------------------------------------------------
TOTAL 1.385 0.075 1.460 100.00
-> xisgtigen successful on ae803005010xi0_1_5x5n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi0_2_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi0_2_3x3n066.fff.infile,f,a,"ae803005010xi0_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_2_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 350161 events )
... 10% ( 35016 / 350161 events )
... 20% ( 70032 / 350161 events )
Event... 100001 (100000)
... 30% ( 105048 / 350161 events )
... 40% ( 140064 / 350161 events )
... 50% ( 175080 / 350161 events )
Event... 200001 (200000)
... 60% ( 210096 / 350161 events )
... 70% ( 245112 / 350161 events )
... 80% ( 280128 / 350161 events )
Event... 300001 (300000)
... 90% ( 315144 / 350161 events )
... 100% ( 350161 / 350161 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267438812.917220 / time start
TSTOP = 267529548.905402 / time stop
TELAPASE = 90735.988182 / elapsed time = TSTOP - TSTART
ONTIME = 43903.994233 / on time = sum of all GTIs
LIVETIME = 43903.994233 / on-source time corrected for CCD exposure
EXPOSURE = 43903.994233 / exposure time
xisEventFitsUtil: rename ./fileckuUvV-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 350163
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 350162/350163
[ 2] XISreadExp version 1.6
| OK: 350162/350162
[ 3] XISreadEvent version 2.7
| OK: 350161/350162 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 350161/350161
[ 5] XISeditEventFits version 2.1
| OK: 350161/350161
GET: 350161
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
350162 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
350162 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
350162 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
350161 : XIStime:ENTRY
350161 : XIStime:OK
1 : XISeditEventFits:BEGIN
350161 : XISeditEventFits:ENTRY
350161 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 350161 350161 SINGLE
XIS:RAWX 4 4 350161 350161 SINGLE
XIS:RAWY 4 4 350161 350161 SINGLE
XIS:ACTX 4 4 350161 350161 SINGLE
XIS:ACTY 4 4 350161 350161 SINGLE
XIS:DETX 4 4 350161 350161 SINGLE
XIS:DETY 4 4 350161 350161 SINGLE
XIS:FOCX 4 4 350161 350161 SINGLE
XIS:FOCY 4 4 350161 350161 SINGLE
XIS:X 4 4 350161 350161 SINGLE
XIS:Y 4 4 350161 350161 SINGLE
XIS:STATUS 4 4 350161 350161 SINGLE
XIS:PHAS 36 36 350161 350161 SINGLE
XIS:PHANOCTI 4 4 350161 350161 SINGLE
XIS:PHA 4 4 350161 350161 SINGLE
XIS:PI 4 4 350161 350161 SINGLE
XIS:GRADE 4 4 350161 350161 SINGLE
XIS:P_OUTER_MOST 4 4 350161 350161 SINGLE
XIS:SUM_OUTER_MOST 4 4 350161 350161 SINGLE
XIS:AEDATE 4 4 700322 350161 FAMILY
XIS:EXPTIME 4 4 350161 700322 FAMILY
XIS:EXPTIME_AETIME 8 8 700322 350161 SINGLE
XIS:S_TIME 8 8 350161 700322 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 350161 700322 FAMILY
XIS:EVENT_SEQ_NO 4 4 350161 350161 SINGLE
XIS:TIME 8 8 700322 350161 SINGLE
XIS:EXP_CENT_AETIME 8 8 700322 350161 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 350163 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.249 0.185 0.434 3.24
[ 2] XISreadExp 0.110 0.162 0.272 2.03
[ 3] XISreadEvent 5.715 0.362 6.077 45.36
[ 4] XIStime 0.758 0.221 0.979 7.31
[ 5] XISeditEventFits 5.176 0.444 5.620 41.95
(others) 0.010 0.006 0.016 0.12
--------------------------------------------------------------------------
TOTAL 12.018 1.380 13.398 100.00
-> xistime successful on ae803005010xi0_2_3x3n066.sff.infile,f,a,"ae803005010xi0_2_3x3n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_2_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 584.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 497.50 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 844.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 765.00 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 796.49 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 697.97 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 350161 events )
... 10% ( 35016 / 350161 events )
... 20% ( 70032 / 350161 events )
Event... 100001 (100000)
... 30% ( 105048 / 350161 events )
... 40% ( 140064 / 350161 events )
... 50% ( 175080 / 350161 events )
Event... 200001 (200000)
... 60% ( 210096 / 350161 events )
... 70% ( 245112 / 350161 events )
... 80% ( 280128 / 350161 events )
Event... 300001 (300000)
... 90% ( 315144 / 350161 events )
... 100% ( 350161 / 350161 events )
xisEventFitsUtil: rename ./fileYfArdN-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 350163
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 350162/350163
[ 2] XISreadExp version 1.6
| OK: 350162/350162
[ 3] XISreadEvent version 2.7
| OK: 350161/350162 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 350161/350161
[ 5] XISeditEventFits version 2.1
| OK: 350161/350161
GET: 350161
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
350162 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
350162 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
350162 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
350161 : XIScoord:ENTRY
350161 : XIScoord:OK
1 : XISeditEventFits:BEGIN
350161 : XISeditEventFits:ENTRY
350161 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 350161 700322 SINGLE
XIS:RAWX 4 4 350161 700322 SINGLE
XIS:RAWY 4 4 350161 700322 SINGLE
XIS:ACTX 4 4 700322 350161 SINGLE
XIS:ACTY 4 4 700322 350161 SINGLE
XIS:DETX 4 4 700322 350161 SINGLE
XIS:DETY 4 4 700322 350161 SINGLE
XIS:FOCX 4 4 700322 350161 SINGLE
XIS:FOCY 4 4 700322 350161 SINGLE
XIS:X 4 4 700322 350161 SINGLE
XIS:Y 4 4 700322 350161 SINGLE
XIS:STATUS 4 4 350161 350161 SINGLE
XIS:PHAS 36 36 350161 350161 SINGLE
XIS:PHANOCTI 4 4 350161 350161 SINGLE
XIS:PHA 4 4 350161 350161 SINGLE
XIS:PI 4 4 350161 350161 SINGLE
XIS:GRADE 4 4 350161 350161 SINGLE
XIS:P_OUTER_MOST 4 4 350161 350161 SINGLE
XIS:SUM_OUTER_MOST 4 4 350161 350161 SINGLE
XIS:AEDATE 4 4 350161 350161 FAMILY
XIS:EXPTIME 4 4 350161 350161 FAMILY
XIS:EXPTIME_AETIME 8 8 350161 350161 SINGLE
XIS:S_TIME 8 8 350161 350161 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 350161 350161 FAMILY
XIS:EVENT_SEQ_NO 4 4 350161 350161 SINGLE
XIS:TIME 8 8 350161 700322 SINGLE
XIS:EXP_CENT_AETIME 8 8 350161 350161 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 350163 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.241 0.232 0.473 3.08
[ 2] XISreadExp 0.077 0.190 0.267 1.74
[ 3] XISreadEvent 5.825 0.293 6.118 39.90
[ 4] XIScoord 2.502 0.267 2.769 18.06
[ 5] XISeditEventFits 5.165 0.518 5.683 37.07
(others) 0.015 0.007 0.022 0.14
--------------------------------------------------------------------------
TOTAL 13.825 1.507 15.332 100.00
-> xiscoord successful on ae803005010xi0_2_3x3n066.sff.infile,f,a,"ae803005010xi0_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_2_3x3n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 350161 events )
... 10% ( 35016 / 350161 events )
... 20% ( 70032 / 350161 events )
Event... 100001 (100000)
... 30% ( 105048 / 350161 events )
... 40% ( 140064 / 350161 events )
... 50% ( 175080 / 350161 events )
Event... 200001 (200000)
... 60% ( 210096 / 350161 events )
... 70% ( 245112 / 350161 events )
... 80% ( 280128 / 350161 events )
Event... 300001 (300000)
... 90% ( 315144 / 350161 events )
... 100% ( 350161 / 350161 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 5471 1.56
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 8162 2.33
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 3514 1.00
B8 256 1PIX_FROM_SEGBOUNDARY 1938 0.55
B9 512 SCI_3rd_TRAILING_ROW 3365 0.96
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 8694 2.48
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 3557 1.02
B16 65536 CALMASK 32763 9.36
B17 131072 SEGBOUNDARY 6734 1.92
B18 262144 SCI_2nd_TRAILING_ROW 3355 0.96
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 17589 5.02
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 75528 21.57
B29 536870912 SCI_TRAILING_ROW 71163 20.32
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 96 0.03
### 0 CLEAN_ZERO 142852 40.80
--------------------------------------------------------------
+++ 4294967295 SUM 384781 109.89
::: 524287 SAFE(B0-18) 190174 54.31
>>> 4294967295 TOTAL 350161 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileln9Bti-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 350163
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 350162/350163
[ 2] XISreadExp version 1.6
| OK: 350162/350162
[ 3] XISreadEvent version 2.7
| OK: 350161/350162 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 350161/350161
[ 5] XISeditEventFits version 2.1
| OK: 350161/350161
GET: 350161
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
350162 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
350162 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
350162 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
350161 : XISputPixelQuality:ENTRY
350161 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
350161 : XISeditEventFits:ENTRY
350161 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 350161 350161 SINGLE
XIS:RAWX 4 4 350161 350161 SINGLE
XIS:RAWY 4 4 350161 700322 SINGLE
XIS:ACTX 4 4 350161 700322 SINGLE
XIS:ACTY 4 4 350161 700322 SINGLE
XIS:DETX 4 4 350161 350161 SINGLE
XIS:DETY 4 4 350161 350161 SINGLE
XIS:FOCX 4 4 350161 350161 SINGLE
XIS:FOCY 4 4 350161 350161 SINGLE
XIS:X 4 4 350161 350161 SINGLE
XIS:Y 4 4 350161 350161 SINGLE
XIS:STATUS 4 4 700322 350161 SINGLE
XIS:PHAS 36 36 350161 350161 SINGLE
XIS:PHANOCTI 4 4 350161 350161 SINGLE
XIS:PHA 4 4 350161 350161 SINGLE
XIS:PI 4 4 350161 350161 SINGLE
XIS:GRADE 4 4 350161 350161 SINGLE
XIS:P_OUTER_MOST 4 4 350161 350161 SINGLE
XIS:SUM_OUTER_MOST 4 4 350161 350161 SINGLE
XIS:AEDATE 4 4 350161 350161 FAMILY
XIS:EXPTIME 4 4 350161 350161 FAMILY
XIS:EXPTIME_AETIME 8 8 350161 350161 SINGLE
XIS:S_TIME 8 8 350161 350161 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 350161 350161 FAMILY
XIS:EVENT_SEQ_NO 4 4 350161 350161 SINGLE
XIS:TIME 8 8 350161 700322 SINGLE
XIS:EXP_CENT_AETIME 8 8 350161 350161 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 350163 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.244 0.167 0.411 3.15
[ 2] XISreadExp 0.091 0.177 0.268 2.05
[ 3] XISreadEvent 5.526 0.218 5.744 43.97
[ 4] XISputPixelQuality 0.478 0.190 0.668 5.11
[ 5] XISeditEventFits 5.394 0.562 5.956 45.59
(others) 0.010 0.007 0.017 0.13
--------------------------------------------------------------------------
TOTAL 11.743 1.321 13.064 100.00
-> xisputpixelquality successful on ae803005010xi0_2_3x3n066.sff.infile,f,a,"ae803005010xi0_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi0_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_2_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi0_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi0_0.hk, S0_VDCHK18_CAL, nrows=5662
nvalid=5326 nrej=336 time=267336981.4 - 267532621.4 [s]
AE-temp: average=20.175 sigma=1.611 min=16.759 max=22.971 [degC]
Event... 1 (0)
... 0% ( 0 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 35016 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 70032 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 105048 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 140064 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 175080 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 210096 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 245112 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 280128 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 315144 / 350161 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 350161 / 350161 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filesukAk2-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 350163
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 350162/350163
[ 2] XISreadExp version 1.6
| OK: 350162/350162
[ 3] XISreadEvent version 2.7
| OK: 350161/350162 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 350161/350161
[ 5] XIStrailCorrection version 3.1
| OK: 350161/350161
[ 6] XISctiCorrection version 3.4
| OK: 350161/350161
[ 7] XISgrade version 3.3
| OK: 350161/350161
[ 8] XISpha2pi version 3.2
| OK: 350161/350161
[ 9] XISeditEventFits version 2.1
| OK: 350161/350161
GET: 350161
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
350162 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
350162 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
350162 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
350161 : XISpreparePHASCORR:ENTRY
350161 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
350161 : XIStrailCorrection:ENTRY
350161 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
350161 : XISctiCorrection:ENTRY
350161 : XISctiCorrection:OK
1 : XISgrade:BEGIN
350161 : XISgrade:ENTRY
350161 : XISgrade:OK
1 : XISpha2pi:BEGIN
350161 : XISpha2pi:ENTRY
350161 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
350161 : XISeditEventFits:ENTRY
350161 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 1400650 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 350161 1750805 SINGLE
XIS:RAWX 4 4 350161 1050483 SINGLE
XIS:RAWY 4 4 350161 700322 SINGLE
XIS:ACTX 4 4 350161 350161 SINGLE
XIS:ACTY 4 4 350161 1050483 SINGLE
XIS:DETX 4 4 350161 350161 SINGLE
XIS:DETY 4 4 350161 350161 SINGLE
XIS:FOCX 4 4 350161 350161 SINGLE
XIS:FOCY 4 4 350161 350161 SINGLE
XIS:X 4 4 350161 350161 SINGLE
XIS:Y 4 4 350161 350161 SINGLE
XIS:STATUS 4 4 350161 350161 SINGLE
XIS:PHAS 36 36 350161 700322 SINGLE
XIS:PHANOCTI 4 4 700322 350161 SINGLE
XIS:PHA 4 4 700322 350161 SINGLE
XIS:PI 4 4 700322 350161 SINGLE
XIS:GRADE 4 4 700322 350161 SINGLE
XIS:P_OUTER_MOST 4 4 350161 700322 SINGLE
XIS:SUM_OUTER_MOST 4 4 350161 700322 SINGLE
XIS:AEDATE 4 4 350161 350161 FAMILY
XIS:EXPTIME 4 4 350161 350161 FAMILY
XIS:EXPTIME_AETIME 8 8 350161 350161 SINGLE
XIS:S_TIME 8 8 350161 350161 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 350161 350161 FAMILY
XIS:EVENT_SEQ_NO 4 4 350161 350161 SINGLE
XIS:TIME 8 8 350161 1750805 SINGLE
XIS:EXP_CENT_AETIME 8 8 350161 350161 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 350163 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 700322 350161 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 350161 350161 SINGLE
XIS:PHASCORR 72 72 1050483 1050483 SINGLE
XIS:PHA:DOUBLE 8 8 350161 350161 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.356 0.173 0.529 1.58
[ 2] XISreadExp 0.099 0.157 0.256 0.76
[ 3] XISreadEvent 5.821 0.270 6.091 18.14
[ 4] XISpreparePHASCORR 0.295 0.177 0.472 1.41
[ 5] XIStrailCorrection 0.766 0.173 0.939 2.80
[ 6] XISctiCorrection 12.156 4.947 17.103 50.94
[ 7] XISgrade 1.252 0.197 1.449 4.32
[ 8] XISpha2pi 0.736 0.173 0.909 2.71
[ 9] XISeditEventFits 5.340 0.461 5.801 17.28
(others) 0.020 0.006 0.026 0.08
--------------------------------------------------------------------------
TOTAL 26.841 6.734 33.575 100.00
-> xispi successful on ae803005010xi0_2_3x3n066.sff.infile,f,a,"ae803005010xi0_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi0_2_3x3n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_3x3n066.sff
OUTFILE ae803005010xi0_2_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi0_2_3x3n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 350161 events )
frame time jump, t=267439756.917 - 267441908.917 by 2152.000 s
frame time jump, t=267446268.916 - 267447660.916 by 1392.000 s
... 10% ( 35016 / 350161 events )
frame time jump, t=267451276.916 - 267453404.915 by 2128.000 s
frame time jump, t=267457028.915 - 267459172.915 by 2144.000 s
... 20% ( 70032 / 350161 events )
frame time jump, t=267462772.914 - 267464916.914 by 2144.000 s
... 30% ( 105048 / 350161 events )
saturated frame, t=267467940.913 - 267467948.913 2 (329/331) seg=1111
frame time jump, t=267468532.913 - 267470676.913 by 2144.000 s
... 40% ( 140064 / 350161 events )
frame time jump, t=267474292.913 - 267476420.912 by 2128.000 s
frame time jump, t=267480036.912 - 267482180.912 by 2144.000 s
... 50% ( 175080 / 350161 events )
frame time jump, t=267484460.911 - 267485100.911 by 640.000 s
frame time jump, t=267485236.911 - 267485500.911 by 264.000 s
frame time jump, t=267485780.911 - 267487924.911 by 2144.000 s
saturated frame, t=267488556.911 - 267488564.911 38 (339/377) seg=1111
... 60% ( 210096 / 350161 events )
frame time jump, t=267490068.911 - 267491252.910 by 1184.000 s
frame time jump, t=267491388.910 - 267493684.910 by 2296.000 s
frame time jump, t=267495980.910 - 267497356.910 by 1376.000 s
frame time jump, t=267497492.910 - 267497756.910 by 264.000 s
frame time jump, t=267497988.910 - 267498844.909 by 856.000 s
saturated frame, t=267499076.909 - 267499084.909 2604 (286/2890) seg=1111
saturated frame, t=267499084.909 - 267499092.909 2568 (286/2854) seg=1111
saturated frame, t=267499092.909 - 267499100.909 2474 (286/2760) seg=1111
saturated frame, t=267499100.909 - 267499108.909 2529 (286/2815) seg=1111
saturated frame, t=267499108.909 - 267499116.909 1691 (1047/2738) seg=1111
saturated frame, t=267499116.909 - 267499124.909 858 (1823/2681) seg=1111
frame time jump, t=267499124.909 - 267518220.907 by 19095.997 s
... 70% ( 245112 / 350161 events )
frame time jump, t=267520348.907 - 267521580.906 by 1232.000 s
saturated frame, t=267521996.906 - 267522004.906 2209 (747/2956) seg=1111
saturated frame, t=267522004.906 - 267522012.906 2201 (745/2946) seg=1111
saturated frame, t=267522012.906 - 267522020.906 2274 (745/3019) seg=1111
saturated frame, t=267522020.906 - 267522028.906 1790 (755/2545) seg=1111
saturated frame, t=267522044.906 - 267522052.906 612 (759/1371) seg=1111
... 80% ( 280128 / 350161 events )
frame time jump, t=267526452.906 - 267527556.906 by 1104.000 s
saturated frame, t=267527572.906 - 267527580.906 1066 (850/1916) seg=1111
saturated frame, t=267527588.906 - 267527596.906 2230 (848/3078) seg=1111
saturated frame, t=267527596.906 - 267527604.906 1884 (848/2732) seg=1111
saturated frame, t=267527604.906 - 267527612.906 1936 (848/2784) seg=1111
saturated frame, t=267527612.906 - 267527620.906 2313 (849/3162) seg=1111
saturated frame, t=267527668.906 - 267527676.906 308 (853/1161) seg=1111
saturated frame, t=267527676.906 - 267527684.906 650 (851/1501) seg=1111
saturated frame, t=267527684.906 - 267527692.906 1824 (849/2673) seg=1111
saturated frame, t=267527692.906 - 267527700.906 2190 (848/3038) seg=1111
saturated frame, t=267527700.906 - 267527708.906 1181 (850/2031) seg=1111
saturated frame, t=267527708.906 - 267527716.906 2207 (848/3055) seg=1111
saturated frame, t=267527716.906 - 267527724.906 1997 (848/2845) seg=1111
saturated frame, t=267527724.906 - 267527732.906 2183 (848/3031) seg=1111
saturated frame, t=267527732.906 - 267527740.906 1442 (850/2292) seg=1111
saturated frame, t=267527740.906 - 267527748.906 2289 (849/3138) seg=1111
saturated frame, t=267527748.906 - 267527756.906 323 (852/1175) seg=1111
saturated frame, t=267527756.906 - 267527764.906 2030 (848/2878) seg=1111
saturated frame, t=267527764.906 - 267527772.906 1890 (848/2738) seg=1111
saturated frame, t=267527772.906 - 267527780.906 1848 (848/2696) seg=1111
saturated frame, t=267527780.906 - 267527788.906 1941 (848/2789) seg=1111
saturated frame, t=267527788.906 - 267527796.906 1877 (848/2725) seg=1111
saturated frame, t=267527796.906 - 267527804.906 1770 (848/2618) seg=1111
saturated frame, t=267527804.906 - 267527812.906 1816 (848/2664) seg=1111
saturated frame, t=267527812.906 - 267527820.906 1890 (848/2738) seg=1111
saturated frame, t=267527820.906 - 267527828.906 1758 (848/2606) seg=1111
saturated frame, t=267527828.906 - 267527836.906 1804 (848/2652) seg=1111
saturated frame, t=267527836.906 - 267527844.906 2166 (848/3014) seg=1111
saturated frame, t=267527844.906 - 267527852.906 2227 (848/3075) seg=1111
saturated frame, t=267527852.906 - 267527860.906 2100 (848/2948) seg=1111
saturated frame, t=267527860.906 - 267527868.906 2114 (848/2962) seg=1111
saturated frame, t=267527868.906 - 267527876.906 1856 (848/2704) seg=1111
saturated frame, t=267527876.906 - 267527884.906 1790 (848/2638) seg=1111
saturated frame, t=267527884.906 - 267527892.906 1805 (848/2653) seg=1111
saturated frame, t=267527892.906 - 267527900.906 1953 (848/2801) seg=1111
saturated frame, t=267527900.906 - 267527908.906 2032 (848/2880) seg=1111
saturated frame, t=267527908.906 - 267527916.906 2080 (848/2928) seg=1111
saturated frame, t=267527916.906 - 267527924.906 2056 (848/2904) seg=1111
saturated frame, t=267527924.906 - 267527932.906 2065 (848/2913) seg=1111
... 90% ( 315144 / 350161 events )
saturated frame, t=267527932.906 - 267527940.906 2001 (848/2849) seg=1111
saturated frame, t=267527940.906 - 267527948.906 2140 (848/2988) seg=1111
saturated frame, t=267527948.906 - 267527956.906 1054 (850/1904) seg=1111
saturated frame, t=267527956.906 - 267527964.906 2039 (848/2887) seg=1111
saturated frame, t=267527964.906 - 267527972.906 2118 (848/2966) seg=1111
saturated frame, t=267527972.906 - 267527980.906 2017 (850/2867) seg=1111
saturated frame, t=267527980.906 - 267527988.906 2249 (848/3097) seg=1111
saturated frame, t=267527988.906 - 267527996.906 1909 (848/2757) seg=1111
saturated frame, t=267527996.906 - 267528004.906 1968 (848/2816) seg=1111
saturated frame, t=267528004.906 - 267528012.906 2079 (849/2928) seg=1111
saturated frame, t=267528012.906 - 267528020.906 2181 (848/3029) seg=1111
saturated frame, t=267528020.906 - 267528028.906 2135 (849/2984) seg=1111
saturated frame, t=267528028.906 - 267528036.906 2093 (849/2942) seg=1111
saturated frame, t=267528036.906 - 267528044.906 2225 (848/3073) seg=1111
saturated frame, t=267528044.906 - 267528052.906 2078 (848/2926) seg=1111
saturated frame, t=267528052.906 - 267528060.906 1893 (848/2741) seg=1111
saturated frame, t=267528060.906 - 267528068.906 1934 (848/2782) seg=1111
saturated frame, t=267528068.906 - 267528076.906 1988 (848/2836) seg=1111
saturated frame, t=267528076.906 - 267528084.906 2258 (848/3106) seg=1111
saturated frame, t=267528084.906 - 267528092.906 1903 (849/2752) seg=1111
saturated frame, t=267528092.906 - 267528100.906 1894 (848/2742) seg=1111
saturated frame, t=267528100.906 - 267528108.906 1891 (848/2739) seg=1111
saturated frame, t=267528108.906 - 267528116.906 2000 (848/2848) seg=1111
saturated frame, t=267528116.906 - 267528124.906 2032 (848/2880) seg=1111
saturated frame, t=267528124.906 - 267528132.906 2007 (848/2855) seg=1111
saturated frame, t=267528132.906 - 267528140.906 1838 (849/2687) seg=1111
saturated frame, t=267528140.906 - 267528148.906 2048 (848/2896) seg=1111
saturated frame, t=267528148.906 - 267528156.906 1851 (848/2699) seg=1111
saturated frame, t=267528156.906 - 267528164.906 2047 (848/2895) seg=1111
saturated frame, t=267528164.906 - 267528172.906 1935 (848/2783) seg=1111
saturated frame, t=267528172.906 - 267528180.906 1995 (848/2843) seg=1111
saturated frame, t=267528180.906 - 267528188.906 2164 (848/3012) seg=1111
saturated frame, t=267528188.906 - 267528196.906 25 (853/878) seg=1111
... 100% ( 350161 / 350161 events )
XIScheckEventNo: GTI file 'ae803005010xi0_2_3x3n066.gti' created
N_FRAMES = 5488 / number of frames in the input event file
N_TESTED = 5488 / number of non-zero frames tested
N_PASSED = 5404 / number of frames passed the test
N_T_JUMP = 19 / number of frames detected time jump
N_SATURA = 84 / number of frames telemetry saturated
T_TESTED = 43904.000000 / exposure of non-zero frames tested
T_PASSED = 43232.000000 / exposure of frames passed the test
T_T_JUMP = 46831.993949 / loss of exposure due to time jump
T_SATURA = 672.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5489
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5488/5489
[ 2] XISreadExp version 1.6
| OK: 5488/5488
[ 3] XISreadEvent version 2.7 <------- LOOP: 350161
| OK: 350161/355649 -------> SKIP: 5488
[ 4] XIScheckEventNo version 1.2
| OK: 350161/350161
GET: 350161
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5488 : XISreadFrame:ENTRY
5488 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5488 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
355649 : XISreadEvent:ENTRY
355648 : XISreadEvent:OK
5488 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
350161 : XIScheckEventNo:ENTRY
350161 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 5488 355649 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 5488 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 5488 355649 SINGLE
XIS:FRAMES:S_TIME 8 8 5488 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 5488 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 5488 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 5488 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 5488 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 5488 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 5488 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 5488 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 5488 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 5488 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 5488 5488 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 5488 0 SINGLE
XIS:FRAMES:BIAS 16 16 5488 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 5488 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 5488 0 SINGLE
XIS:FRAMES:AEDATE 4 4 5488 355649 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 5488 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 5488 350161 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 5488 5488 SINGLE
XIS:FRAMES:TIME 8 8 5488 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 350161 350161 SINGLE
XIS:RAWX 4 4 350161 0 SINGLE
XIS:RAWY 4 4 350161 0 SINGLE
XIS:ACTX 4 4 350161 0 SINGLE
XIS:ACTY 4 4 350161 0 SINGLE
XIS:DETX 4 4 350161 0 SINGLE
XIS:DETY 4 4 350161 0 SINGLE
XIS:FOCX 4 4 350161 0 SINGLE
XIS:FOCY 4 4 350161 0 SINGLE
XIS:X 4 4 350161 0 SINGLE
XIS:Y 4 4 350161 0 SINGLE
XIS:STATUS 4 4 350161 0 SINGLE
XIS:PHAS 36 36 350161 0 SINGLE
XIS:PHANOCTI 4 4 350161 0 SINGLE
XIS:PHA 4 4 350161 0 SINGLE
XIS:PI 4 4 350161 0 SINGLE
XIS:GRADE 4 4 350161 0 SINGLE
XIS:P_OUTER_MOST 4 4 350161 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 350161 0 SINGLE
XIS:AEDATE 4 4 350161 355648 FAMILY
XIS:EXPTIME 4 4 350161 355648 FAMILY
XIS:EXPTIME_AETIME 8 8 350161 0 SINGLE
XIS:S_TIME 8 8 350161 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 350161 355648 FAMILY
XIS:EVENT_SEQ_NO 4 4 350161 355648 SINGLE
XIS:TIME 8 8 350161 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 350161 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 1.340 0.023 1.363 14.42
[ 2] XISreadExp 0.005 0.003 0.008 0.08
[ 3] XISreadEvent 7.415 0.268 7.683 81.32
[ 4] XIScheckEventNo 0.190 0.185 0.375 3.97
(others) 0.013 0.006 0.019 0.20
--------------------------------------------------------------------------
TOTAL 8.963 0.485 9.448 100.00
-> xisgtigen successful on ae803005010xi0_2_3x3n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi0_2_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi0_2_5x5n066.fff.infile,f,a,"ae803005010xi0_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_2_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 109076 events )
... 10% ( 10907 / 109076 events )
... 20% ( 21814 / 109076 events )
... 30% ( 32721 / 109076 events )
... 40% ( 43628 / 109076 events )
... 50% ( 54535 / 109076 events )
... 60% ( 65442 / 109076 events )
... 70% ( 76349 / 109076 events )
... 80% ( 87256 / 109076 events )
... 90% ( 98163 / 109076 events )
Event... 100001 (100000)
... 100% ( 109076 / 109076 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267499124.909376 / time start
TSTOP = 267518220.906867 / time stop
TELAPASE = 19095.997491 / elapsed time = TSTOP - TSTART
ONTIME = 14359.998220 / on time = sum of all GTIs
LIVETIME = 14359.998220 / on-source time corrected for CCD exposure
EXPOSURE = 14359.998220 / exposure time
xisEventFitsUtil: rename ./filemZJzbT-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 109078
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 109077/109078
[ 2] XISreadExp version 1.6
| OK: 109077/109077
[ 3] XISreadEvent version 2.7
| OK: 109076/109077 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 109076/109076
[ 5] XISeditEventFits version 2.1
| OK: 109076/109076
GET: 109076
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
109077 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
109077 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
109077 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
109076 : XIStime:ENTRY
109076 : XIStime:OK
1 : XISeditEventFits:BEGIN
109076 : XISeditEventFits:ENTRY
109076 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 109076 109076 SINGLE
XIS:RAWX 4 4 109076 109076 SINGLE
XIS:RAWY 4 4 109076 109076 SINGLE
XIS:ACTX 4 4 109076 109076 SINGLE
XIS:ACTY 4 4 109076 109076 SINGLE
XIS:DETX 4 4 109076 109076 SINGLE
XIS:DETY 4 4 109076 109076 SINGLE
XIS:FOCX 4 4 109076 109076 SINGLE
XIS:FOCY 4 4 109076 109076 SINGLE
XIS:X 4 4 109076 109076 SINGLE
XIS:Y 4 4 109076 109076 SINGLE
XIS:STATUS 4 4 109076 109076 SINGLE
XIS:PHAS 100 100 109076 109076 SINGLE
XIS:PHANOCTI 4 4 109076 109076 SINGLE
XIS:PHA 4 4 109076 109076 SINGLE
XIS:PI 4 4 109076 109076 SINGLE
XIS:GRADE 4 4 109076 109076 SINGLE
XIS:AEDATE 4 4 218152 109076 FAMILY
XIS:EXPTIME 4 4 109076 218152 FAMILY
XIS:EXPTIME_AETIME 8 8 218152 109076 SINGLE
XIS:S_TIME 8 8 109076 218152 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 109076 218152 FAMILY
XIS:EVENT_SEQ_NO 4 4 109076 109076 SINGLE
XIS:TIME 8 8 218152 109076 SINGLE
XIS:EXP_CENT_AETIME 8 8 218152 109076 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 109078 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.057 0.049 0.106 2.53
[ 2] XISreadExp 0.033 0.049 0.082 1.96
[ 3] XISreadEvent 1.663 0.134 1.797 42.95
[ 4] XIStime 0.355 0.073 0.428 10.23
[ 5] XISeditEventFits 1.597 0.157 1.754 41.92
(others) 0.011 0.006 0.017 0.41
--------------------------------------------------------------------------
TOTAL 3.715 0.468 4.183 100.00
-> xistime successful on ae803005010xi0_2_5x5n066.sff.infile,f,a,"ae803005010xi0_2_5x5n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_2_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 0
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 584.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 497.50 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 844.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 765.00 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 796.49 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 697.97 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 109076 events )
... 10% ( 10907 / 109076 events )
... 20% ( 21814 / 109076 events )
... 30% ( 32721 / 109076 events )
... 40% ( 43628 / 109076 events )
... 50% ( 54535 / 109076 events )
... 60% ( 65442 / 109076 events )
... 70% ( 76349 / 109076 events )
... 80% ( 87256 / 109076 events )
... 90% ( 98163 / 109076 events )
Event... 100001 (100000)
... 100% ( 109076 / 109076 events )
xisEventFitsUtil: rename ./filek58ajE-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 109078
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 109077/109078
[ 2] XISreadExp version 1.6
| OK: 109077/109077
[ 3] XISreadEvent version 2.7
| OK: 109076/109077 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 109076/109076
[ 5] XISeditEventFits version 2.1
| OK: 109076/109076
GET: 109076
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
109077 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
109077 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
109077 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
109076 : XIScoord:ENTRY
109076 : XIScoord:OK
1 : XISeditEventFits:BEGIN
109076 : XISeditEventFits:ENTRY
109076 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 109076 218152 SINGLE
XIS:RAWX 4 4 109076 218152 SINGLE
XIS:RAWY 4 4 109076 218152 SINGLE
XIS:ACTX 4 4 218152 109076 SINGLE
XIS:ACTY 4 4 218152 109076 SINGLE
XIS:DETX 4 4 218152 109076 SINGLE
XIS:DETY 4 4 218152 109076 SINGLE
XIS:FOCX 4 4 218152 109076 SINGLE
XIS:FOCY 4 4 218152 109076 SINGLE
XIS:X 4 4 218152 109076 SINGLE
XIS:Y 4 4 218152 109076 SINGLE
XIS:STATUS 4 4 109076 109076 SINGLE
XIS:PHAS 100 100 109076 109076 SINGLE
XIS:PHANOCTI 4 4 109076 109076 SINGLE
XIS:PHA 4 4 109076 109076 SINGLE
XIS:PI 4 4 109076 109076 SINGLE
XIS:GRADE 4 4 109076 109076 SINGLE
XIS:AEDATE 4 4 109076 109076 FAMILY
XIS:EXPTIME 4 4 109076 109076 FAMILY
XIS:EXPTIME_AETIME 8 8 109076 109076 SINGLE
XIS:S_TIME 8 8 109076 109076 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 109076 109076 FAMILY
XIS:EVENT_SEQ_NO 4 4 109076 109076 SINGLE
XIS:TIME 8 8 109076 218152 SINGLE
XIS:EXP_CENT_AETIME 8 8 109076 109076 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 109078 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.088 0.057 0.145 3.07
[ 2] XISreadExp 0.027 0.066 0.093 1.97
[ 3] XISreadEvent 1.693 0.114 1.807 38.25
[ 4] XIScoord 0.751 0.112 0.863 18.27
[ 5] XISeditEventFits 1.590 0.204 1.794 37.98
(others) 0.013 0.009 0.022 0.47
--------------------------------------------------------------------------
TOTAL 4.161 0.562 4.723 100.00
-> xiscoord successful on ae803005010xi0_2_5x5n066.sff.infile,f,a,"ae803005010xi0_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_2_5x5n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 109076 events )
... 10% ( 10907 / 109076 events )
... 20% ( 21814 / 109076 events )
... 30% ( 32721 / 109076 events )
... 40% ( 43628 / 109076 events )
... 50% ( 54535 / 109076 events )
... 60% ( 65442 / 109076 events )
... 70% ( 76349 / 109076 events )
... 80% ( 87256 / 109076 events )
... 90% ( 98163 / 109076 events )
Event... 100001 (100000)
... 100% ( 109076 / 109076 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 1740 1.60
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 2643 2.42
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 1119 1.03
B8 256 1PIX_FROM_SEGBOUNDARY 593 0.54
B9 512 SCI_3rd_TRAILING_ROW 840 0.77
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 2797 2.56
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 840 0.77
B16 65536 CALMASK 10573 9.69
B17 131072 SEGBOUNDARY 1886 1.73
B18 262144 SCI_2nd_TRAILING_ROW 898 0.82
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 10346 9.49
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 28684 26.30
B29 536870912 SCI_TRAILING_ROW 24318 22.29
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 38 0.03
### 0 CLEAN_ZERO 37275 34.17
--------------------------------------------------------------
+++ 4294967295 SUM 124590 114.22
::: 524287 SAFE(B0-18) 49730 45.59
>>> 4294967295 TOTAL 109076 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileRJp7sJ-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 109078
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 109077/109078
[ 2] XISreadExp version 1.6
| OK: 109077/109077
[ 3] XISreadEvent version 2.7
| OK: 109076/109077 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 109076/109076
[ 5] XISeditEventFits version 2.1
| OK: 109076/109076
GET: 109076
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
109077 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
109077 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
109077 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
109076 : XISputPixelQuality:ENTRY
109076 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
109076 : XISeditEventFits:ENTRY
109076 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 109076 109076 SINGLE
XIS:RAWX 4 4 109076 109076 SINGLE
XIS:RAWY 4 4 109076 218152 SINGLE
XIS:ACTX 4 4 109076 218152 SINGLE
XIS:ACTY 4 4 109076 218152 SINGLE
XIS:DETX 4 4 109076 109076 SINGLE
XIS:DETY 4 4 109076 109076 SINGLE
XIS:FOCX 4 4 109076 109076 SINGLE
XIS:FOCY 4 4 109076 109076 SINGLE
XIS:X 4 4 109076 109076 SINGLE
XIS:Y 4 4 109076 109076 SINGLE
XIS:STATUS 4 4 218152 109076 SINGLE
XIS:PHAS 100 100 109076 109076 SINGLE
XIS:PHANOCTI 4 4 109076 109076 SINGLE
XIS:PHA 4 4 109076 109076 SINGLE
XIS:PI 4 4 109076 109076 SINGLE
XIS:GRADE 4 4 109076 109076 SINGLE
XIS:AEDATE 4 4 109076 109076 FAMILY
XIS:EXPTIME 4 4 109076 109076 FAMILY
XIS:EXPTIME_AETIME 8 8 109076 109076 SINGLE
XIS:S_TIME 8 8 109076 109076 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 109076 109076 FAMILY
XIS:EVENT_SEQ_NO 4 4 109076 109076 SINGLE
XIS:TIME 8 8 109076 218152 SINGLE
XIS:EXP_CENT_AETIME 8 8 109076 109076 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 109078 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.076 0.054 0.130 3.26
[ 2] XISreadExp 0.029 0.044 0.073 1.83
[ 3] XISreadEvent 1.554 0.061 1.615 40.55
[ 4] XISputPixelQuality 0.180 0.067 0.247 6.20
[ 5] XISeditEventFits 1.685 0.215 1.900 47.70
(others) 0.009 0.009 0.018 0.45
--------------------------------------------------------------------------
TOTAL 3.532 0.450 3.982 100.00
-> xisputpixelquality successful on ae803005010xi0_2_5x5n066.sff.infile,f,a,"ae803005010xi0_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi0_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_2_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi0_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi0_0.hk, S0_VDCHK18_CAL, nrows=5662
nvalid=5326 nrej=336 time=267336981.4 - 267532621.4 [s]
AE-temp: average=20.175 sigma=1.611 min=16.759 max=22.971 [degC]
Event... 1 (0)
... 0% ( 0 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 10907 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 21814 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 32721 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 43628 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 54535 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 65442 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 76349 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 87256 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 98163 / 109076 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 109076 / 109076 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filedQJmcd-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 109078
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 109077/109078
[ 2] XISreadExp version 1.6
| OK: 109077/109077
[ 3] XISreadEvent version 2.7
| OK: 109076/109077 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 109076/109076
[ 5] XIStrailCorrection version 3.1
| OK: 109076/109076
[ 6] XISctiCorrection version 3.4
| OK: 109076/109076
[ 7] XISgrade version 3.3
| OK: 109076/109076
[ 8] XISpha2pi version 3.2
| OK: 109076/109076
[ 9] XISeditEventFits version 2.1
| OK: 109076/109076
GET: 109076
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
109077 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
109077 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
109077 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
109076 : XISpreparePHASCORR:ENTRY
109076 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
109076 : XIStrailCorrection:ENTRY
109076 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
109076 : XISctiCorrection:ENTRY
109076 : XISctiCorrection:OK
1 : XISgrade:BEGIN
109076 : XISgrade:ENTRY
109076 : XISgrade:OK
1 : XISpha2pi:BEGIN
109076 : XISpha2pi:ENTRY
109076 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
109076 : XISeditEventFits:ENTRY
109076 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 189/5000
buffer size : 120000
buffer used : 4768
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 436310 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 109076 545380 SINGLE
XIS:RAWX 4 4 109076 327228 SINGLE
XIS:RAWY 4 4 109076 218152 SINGLE
XIS:ACTX 4 4 109076 109076 SINGLE
XIS:ACTY 4 4 109076 327228 SINGLE
XIS:DETX 4 4 109076 109076 SINGLE
XIS:DETY 4 4 109076 109076 SINGLE
XIS:FOCX 4 4 109076 109076 SINGLE
XIS:FOCY 4 4 109076 109076 SINGLE
XIS:X 4 4 109076 109076 SINGLE
XIS:Y 4 4 109076 109076 SINGLE
XIS:STATUS 4 4 109076 109076 SINGLE
XIS:PHAS 100 100 109076 218152 SINGLE
XIS:PHANOCTI 4 4 218152 109076 SINGLE
XIS:PHA 4 4 218152 109076 SINGLE
XIS:PI 4 4 218152 109076 SINGLE
XIS:GRADE 4 4 218152 109076 SINGLE
XIS:AEDATE 4 4 109076 109076 FAMILY
XIS:EXPTIME 4 4 109076 109076 FAMILY
XIS:EXPTIME_AETIME 8 8 109076 109076 SINGLE
XIS:S_TIME 8 8 109076 109076 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 109076 109076 FAMILY
XIS:EVENT_SEQ_NO 4 4 109076 109076 SINGLE
XIS:TIME 8 8 109076 545380 SINGLE
XIS:EXP_CENT_AETIME 8 8 109076 109076 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 109078 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 218152 109076 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 109076 109076 SINGLE
XIS:PHASCORR 200 200 327228 327228 SINGLE
XIS:PHA:DOUBLE 8 8 109076 109076 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.104 0.073 0.177 1.43
[ 2] XISreadExp 0.032 0.051 0.083 0.67
[ 3] XISreadEvent 1.700 0.084 1.784 14.45
[ 4] XISpreparePHASCORR 0.106 0.040 0.146 1.18
[ 5] XIStrailCorrection 0.243 0.046 0.289 2.34
[ 6] XISctiCorrection 5.621 1.678 7.299 59.14
[ 7] XISgrade 0.387 0.046 0.433 3.51
[ 8] XISpha2pi 0.242 0.058 0.300 2.43
[ 9] XISeditEventFits 1.623 0.182 1.805 14.62
(others) 0.019 0.007 0.026 0.21
--------------------------------------------------------------------------
TOTAL 10.076 2.265 12.341 100.00
-> xispi successful on ae803005010xi0_2_5x5n066.sff.infile,f,a,"ae803005010xi0_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi0_2_5x5n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_5x5n066.sff
OUTFILE ae803005010xi0_2_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi0_2_5x5n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 109076 events )
saturated frame, t=267499124.909 - 267499132.909 1978 (814/2792) seg=1111
saturated frame, t=267499132.909 - 267499140.909 1890 (804/2694) seg=1111
saturated frame, t=267499140.909 - 267499148.909 1918 (803/2721) seg=1111
saturated frame, t=267499148.909 - 267499156.909 2069 (804/2873) seg=1111
... 10% ( 10907 / 109076 events )
frame time jump, t=267501908.909 - 267503476.909 by 1568.000 s
... 20% ( 21814 / 109076 events )
frame time jump, t=267503612.909 - 267503876.909 by 264.000 s
saturated frame, t=267504780.909 - 267504788.909 1019 (834/1853) seg=1111
saturated frame, t=267504812.909 - 267504820.909 1123 (832/1955) seg=1111
saturated frame, t=267504820.909 - 267504828.909 2003 (829/2832) seg=1111
saturated frame, t=267504828.909 - 267504836.909 2203 (813/3016) seg=1111
saturated frame, t=267504836.909 - 267504844.909 1980 (808/2788) seg=1111
... 30% ( 32721 / 109076 events )
saturated frame, t=267504844.909 - 267504852.909 1951 (808/2759) seg=1111
saturated frame, t=267504852.909 - 267504860.909 1986 (809/2795) seg=1111
saturated frame, t=267504860.909 - 267504868.909 2082 (820/2902) seg=1111
saturated frame, t=267504868.909 - 267504876.909 1559 (828/2387) seg=1111
saturated frame, t=267504884.909 - 267504892.909 1070 (832/1902) seg=1111
saturated frame, t=267504940.909 - 267504948.909 1389 (834/2223) seg=1111
... 40% ( 43628 / 109076 events )
... 50% ( 54535 / 109076 events )
frame time jump, t=267508084.908 - 267509612.908 by 1528.000 s
... 60% ( 65442 / 109076 events )
saturated frame, t=267510780.908 - 267510788.908 1123 (833/1956) seg=1111
saturated frame, t=267510804.908 - 267510812.908 2042 (809/2851) seg=1111
saturated frame, t=267510812.908 - 267510820.908 1922 (808/2730) seg=1111
saturated frame, t=267510820.908 - 267510828.908 2065 (824/2889) seg=1111
saturated frame, t=267510828.908 - 267510836.908 444 (843/1287) seg=1111
saturated frame, t=267510900.908 - 267510908.908 1969 (830/2799) seg=1111
... 70% ( 76349 / 109076 events )
saturated frame, t=267510908.908 - 267510916.908 2209 (816/3025) seg=1111
... 80% ( 87256 / 109076 events )
frame time jump, t=267514220.907 - 267515596.907 by 1376.000 s
saturated frame, t=267516188.907 - 267516196.907 634 (844/1478) seg=1111
... 90% ( 98163 / 109076 events )
saturated frame, t=267516196.907 - 267516204.907 2208 (818/3026) seg=1111
... 100% ( 109076 / 109076 events )
XIScheckEventNo: GTI file 'ae803005010xi0_2_5x5n066.gti' created
N_FRAMES = 1795 / number of frames in the input event file
N_TESTED = 1795 / number of non-zero frames tested
N_PASSED = 1771 / number of frames passed the test
N_T_JUMP = 4 / number of frames detected time jump
N_SATURA = 24 / number of frames telemetry saturated
T_TESTED = 14360.000000 / exposure of non-zero frames tested
T_PASSED = 14168.000000 / exposure of frames passed the test
T_T_JUMP = 4735.999270 / loss of exposure due to time jump
T_SATURA = 192.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1796
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1795/1796
[ 2] XISreadExp version 1.6
| OK: 1795/1795
[ 3] XISreadEvent version 2.7 <------- LOOP: 109076
| OK: 109076/110871 -------> SKIP: 1795
[ 4] XIScheckEventNo version 1.2
| OK: 109076/109076
GET: 109076
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1795 : XISreadFrame:ENTRY
1795 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1795 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
110871 : XISreadEvent:ENTRY
110870 : XISreadEvent:OK
1795 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
109076 : XIScheckEventNo:ENTRY
109076 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 242/5000
buffer size : 120000
buffer used : 6432
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 1795 110871 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1795 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1795 110871 SINGLE
XIS:FRAMES:S_TIME 8 8 1795 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1795 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1795 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1795 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1795 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1795 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1795 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1795 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1795 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1795 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1795 1795 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1795 0 SINGLE
XIS:FRAMES:BIAS 16 16 1795 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1795 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1795 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1795 110871 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1795 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1795 109076 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1795 1795 SINGLE
XIS:FRAMES:TIME 8 8 1795 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 109076 109076 SINGLE
XIS:RAWX 4 4 109076 0 SINGLE
XIS:RAWY 4 4 109076 0 SINGLE
XIS:ACTX 4 4 109076 0 SINGLE
XIS:ACTY 4 4 109076 0 SINGLE
XIS:DETX 4 4 109076 0 SINGLE
XIS:DETY 4 4 109076 0 SINGLE
XIS:FOCX 4 4 109076 0 SINGLE
XIS:FOCY 4 4 109076 0 SINGLE
XIS:X 4 4 109076 0 SINGLE
XIS:Y 4 4 109076 0 SINGLE
XIS:STATUS 4 4 109076 0 SINGLE
XIS:PHAS 100 100 109076 0 SINGLE
XIS:PHANOCTI 4 4 109076 0 SINGLE
XIS:PHA 4 4 109076 0 SINGLE
XIS:PI 4 4 109076 0 SINGLE
XIS:GRADE 4 4 109076 0 SINGLE
XIS:AEDATE 4 4 109076 110870 FAMILY
XIS:EXPTIME 4 4 109076 110870 FAMILY
XIS:EXPTIME_AETIME 8 8 109076 0 SINGLE
XIS:S_TIME 8 8 109076 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 109076 110870 FAMILY
XIS:EVENT_SEQ_NO 4 4 109076 110870 SINGLE
XIS:TIME 8 8 109076 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 109076 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.411 0.005 0.416 14.44
[ 2] XISreadExp 0.004 0.000 0.004 0.14
[ 3] XISreadEvent 2.279 0.055 2.334 80.98
[ 4] XIScheckEventNo 0.053 0.057 0.110 3.82
(others) 0.011 0.007 0.018 0.62
--------------------------------------------------------------------------
TOTAL 2.758 0.124 2.882 100.00
-> xisgtigen successful on ae803005010xi0_2_5x5n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi0_3_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi0_3_3x3n066.fff.infile,f,a,"ae803005010xi0_3_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_3_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_3_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 18143 events )
... 10% ( 1814 / 18143 events )
... 20% ( 3628 / 18143 events )
... 30% ( 5442 / 18143 events )
... 40% ( 7256 / 18143 events )
... 50% ( 9070 / 18143 events )
... 60% ( 10884 / 18143 events )
... 70% ( 12698 / 18143 events )
... 80% ( 14512 / 18143 events )
... 90% ( 16326 / 18143 events )
... 100% ( 18143 / 18143 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267529548.905401 / time start
TSTOP = 267532596.904953 / time stop
TELAPASE = 3047.999552 / elapsed time = TSTOP - TSTART
ONTIME = 3047.999552 / on time = sum of all GTIs
LIVETIME = 3047.999552 / on-source time corrected for CCD exposure
EXPOSURE = 3047.999552 / exposure time
xisEventFitsUtil: rename ./file7xdR6C-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 18145
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 18144/18145
[ 2] XISreadExp version 1.6
| OK: 18144/18144
[ 3] XISreadEvent version 2.7
| OK: 18143/18144 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 18143/18143
[ 5] XISeditEventFits version 2.1
| OK: 18143/18143
GET: 18143
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
18144 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
18144 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18144 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
18143 : XIStime:ENTRY
18143 : XIStime:OK
1 : XISeditEventFits:BEGIN
18143 : XISeditEventFits:ENTRY
18143 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 18143 18143 SINGLE
XIS:RAWX 4 4 18143 18143 SINGLE
XIS:RAWY 4 4 18143 18143 SINGLE
XIS:ACTX 4 4 18143 18143 SINGLE
XIS:ACTY 4 4 18143 18143 SINGLE
XIS:DETX 4 4 18143 18143 SINGLE
XIS:DETY 4 4 18143 18143 SINGLE
XIS:FOCX 4 4 18143 18143 SINGLE
XIS:FOCY 4 4 18143 18143 SINGLE
XIS:X 4 4 18143 18143 SINGLE
XIS:Y 4 4 18143 18143 SINGLE
XIS:STATUS 4 4 18143 18143 SINGLE
XIS:PHAS 36 36 18143 18143 SINGLE
XIS:PHANOCTI 4 4 18143 18143 SINGLE
XIS:PHA 4 4 18143 18143 SINGLE
XIS:PI 4 4 18143 18143 SINGLE
XIS:GRADE 4 4 18143 18143 SINGLE
XIS:P_OUTER_MOST 4 4 18143 18143 SINGLE
XIS:SUM_OUTER_MOST 4 4 18143 18143 SINGLE
XIS:AEDATE 4 4 36286 18143 FAMILY
XIS:EXPTIME 4 4 18143 36286 FAMILY
XIS:EXPTIME_AETIME 8 8 36286 18143 SINGLE
XIS:S_TIME 8 8 18143 36286 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18143 36286 FAMILY
XIS:EVENT_SEQ_NO 4 4 18143 18143 SINGLE
XIS:TIME 8 8 36286 18143 SINGLE
XIS:EXP_CENT_AETIME 8 8 36286 18143 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 18145 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.015 0.012 0.027 3.01
[ 2] XISreadExp 0.001 0.007 0.008 0.89
[ 3] XISreadEvent 0.289 0.020 0.309 34.41
[ 4] XIStime 0.182 0.012 0.194 21.60
[ 5] XISeditEventFits 0.319 0.025 0.344 38.31
(others) 0.012 0.004 0.016 1.78
--------------------------------------------------------------------------
TOTAL 0.818 0.080 0.898 100.00
-> xistime successful on ae803005010xi0_3_3x3n066.sff.infile,f,a,"ae803005010xi0_3_3x3n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_3_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_3_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 584.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 497.50 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 844.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 765.00 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 796.49 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 697.97 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 18143 events )
... 10% ( 1814 / 18143 events )
... 20% ( 3628 / 18143 events )
... 30% ( 5442 / 18143 events )
... 40% ( 7256 / 18143 events )
... 50% ( 9070 / 18143 events )
... 60% ( 10884 / 18143 events )
... 70% ( 12698 / 18143 events )
... 80% ( 14512 / 18143 events )
... 90% ( 16326 / 18143 events )
... 100% ( 18143 / 18143 events )
xisEventFitsUtil: rename ./fileoru7YD-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 18145
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 18144/18145
[ 2] XISreadExp version 1.6
| OK: 18144/18144
[ 3] XISreadEvent version 2.7
| OK: 18143/18144 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 18143/18143
[ 5] XISeditEventFits version 2.1
| OK: 18143/18143
GET: 18143
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
18144 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
18144 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18144 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
18143 : XIScoord:ENTRY
18143 : XIScoord:OK
1 : XISeditEventFits:BEGIN
18143 : XISeditEventFits:ENTRY
18143 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 18143 36286 SINGLE
XIS:RAWX 4 4 18143 36286 SINGLE
XIS:RAWY 4 4 18143 36286 SINGLE
XIS:ACTX 4 4 36286 18143 SINGLE
XIS:ACTY 4 4 36286 18143 SINGLE
XIS:DETX 4 4 36286 18143 SINGLE
XIS:DETY 4 4 36286 18143 SINGLE
XIS:FOCX 4 4 36286 18143 SINGLE
XIS:FOCY 4 4 36286 18143 SINGLE
XIS:X 4 4 36286 18143 SINGLE
XIS:Y 4 4 36286 18143 SINGLE
XIS:STATUS 4 4 18143 18143 SINGLE
XIS:PHAS 36 36 18143 18143 SINGLE
XIS:PHANOCTI 4 4 18143 18143 SINGLE
XIS:PHA 4 4 18143 18143 SINGLE
XIS:PI 4 4 18143 18143 SINGLE
XIS:GRADE 4 4 18143 18143 SINGLE
XIS:P_OUTER_MOST 4 4 18143 18143 SINGLE
XIS:SUM_OUTER_MOST 4 4 18143 18143 SINGLE
XIS:AEDATE 4 4 18143 18143 FAMILY
XIS:EXPTIME 4 4 18143 18143 FAMILY
XIS:EXPTIME_AETIME 8 8 18143 18143 SINGLE
XIS:S_TIME 8 8 18143 18143 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18143 18143 FAMILY
XIS:EVENT_SEQ_NO 4 4 18143 18143 SINGLE
XIS:TIME 8 8 18143 36286 SINGLE
XIS:EXP_CENT_AETIME 8 8 18143 18143 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 18145 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.022 0.013 0.035 3.97
[ 2] XISreadExp 0.002 0.010 0.012 1.36
[ 3] XISreadEvent 0.302 0.021 0.323 36.66
[ 4] XIScoord 0.148 0.027 0.175 19.86
[ 5] XISeditEventFits 0.274 0.040 0.314 35.64
(others) 0.015 0.007 0.022 2.50
--------------------------------------------------------------------------
TOTAL 0.763 0.118 0.881 100.00
-> xiscoord successful on ae803005010xi0_3_3x3n066.sff.infile,f,a,"ae803005010xi0_3_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_3_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_3_3x3n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 18143 events )
... 10% ( 1814 / 18143 events )
... 20% ( 3628 / 18143 events )
... 30% ( 5442 / 18143 events )
... 40% ( 7256 / 18143 events )
... 50% ( 9070 / 18143 events )
... 60% ( 10884 / 18143 events )
... 70% ( 12698 / 18143 events )
... 80% ( 14512 / 18143 events )
... 90% ( 16326 / 18143 events )
... 100% ( 18143 / 18143 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 301 1.66
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 429 2.36
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 229 1.26
B8 256 1PIX_FROM_SEGBOUNDARY 83 0.46
B9 512 SCI_3rd_TRAILING_ROW 199 1.10
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 448 2.47
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 228 1.26
B16 65536 CALMASK 2483 13.69
B17 131072 SEGBOUNDARY 378 2.08
B18 262144 SCI_2nd_TRAILING_ROW 256 1.41
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 1209 6.66
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 2610 14.39
B29 536870912 SCI_TRAILING_ROW 2207 12.16
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 22 0.12
### 0 CLEAN_ZERO 9005 49.63
--------------------------------------------------------------
+++ 4294967295 SUM 20087 110.71
::: 524287 SAFE(B0-18) 12191 67.19
>>> 4294967295 TOTAL 18143 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileX35vaC-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 18145
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 18144/18145
[ 2] XISreadExp version 1.6
| OK: 18144/18144
[ 3] XISreadEvent version 2.7
| OK: 18143/18144 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 18143/18143
[ 5] XISeditEventFits version 2.1
| OK: 18143/18143
GET: 18143
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
18144 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
18144 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18144 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
18143 : XISputPixelQuality:ENTRY
18143 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
18143 : XISeditEventFits:ENTRY
18143 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 18143 18143 SINGLE
XIS:RAWX 4 4 18143 18143 SINGLE
XIS:RAWY 4 4 18143 36286 SINGLE
XIS:ACTX 4 4 18143 36286 SINGLE
XIS:ACTY 4 4 18143 36286 SINGLE
XIS:DETX 4 4 18143 18143 SINGLE
XIS:DETY 4 4 18143 18143 SINGLE
XIS:FOCX 4 4 18143 18143 SINGLE
XIS:FOCY 4 4 18143 18143 SINGLE
XIS:X 4 4 18143 18143 SINGLE
XIS:Y 4 4 18143 18143 SINGLE
XIS:STATUS 4 4 36286 18143 SINGLE
XIS:PHAS 36 36 18143 18143 SINGLE
XIS:PHANOCTI 4 4 18143 18143 SINGLE
XIS:PHA 4 4 18143 18143 SINGLE
XIS:PI 4 4 18143 18143 SINGLE
XIS:GRADE 4 4 18143 18143 SINGLE
XIS:P_OUTER_MOST 4 4 18143 18143 SINGLE
XIS:SUM_OUTER_MOST 4 4 18143 18143 SINGLE
XIS:AEDATE 4 4 18143 18143 FAMILY
XIS:EXPTIME 4 4 18143 18143 FAMILY
XIS:EXPTIME_AETIME 8 8 18143 18143 SINGLE
XIS:S_TIME 8 8 18143 18143 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18143 18143 FAMILY
XIS:EVENT_SEQ_NO 4 4 18143 18143 SINGLE
XIS:TIME 8 8 18143 36286 SINGLE
XIS:EXP_CENT_AETIME 8 8 18143 18143 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 18145 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.017 0.012 0.029 3.76
[ 2] XISreadExp 0.006 0.011 0.017 2.21
[ 3] XISreadEvent 0.312 0.015 0.327 42.41
[ 4] XISputPixelQuality 0.066 0.010 0.076 9.86
[ 5] XISeditEventFits 0.279 0.026 0.305 39.56
(others) 0.012 0.005 0.017 2.20
--------------------------------------------------------------------------
TOTAL 0.692 0.079 0.771 100.00
-> xisputpixelquality successful on ae803005010xi0_3_3x3n066.sff.infile,f,a,"ae803005010xi0_3_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi0_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_3_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_3_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi0_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi0_0.hk, S0_VDCHK18_CAL, nrows=5662
nvalid=5326 nrej=336 time=267336981.4 - 267532621.4 [s]
AE-temp: average=20.175 sigma=1.611 min=16.759 max=22.971 [degC]
Event... 1 (0)
... 0% ( 0 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 1814 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 3628 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 5442 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 7256 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 9070 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 10884 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 12698 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 14512 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 16326 / 18143 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 18143 / 18143 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./file6a2RDv-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 18145
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 18144/18145
[ 2] XISreadExp version 1.6
| OK: 18144/18144
[ 3] XISreadEvent version 2.7
| OK: 18143/18144 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 18143/18143
[ 5] XIStrailCorrection version 3.1
| OK: 18143/18143
[ 6] XISctiCorrection version 3.4
| OK: 18143/18143
[ 7] XISgrade version 3.3
| OK: 18143/18143
[ 8] XISpha2pi version 3.2
| OK: 18143/18143
[ 9] XISeditEventFits version 2.1
| OK: 18143/18143
GET: 18143
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
18144 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
18144 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18144 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
18143 : XISpreparePHASCORR:ENTRY
18143 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
18143 : XIStrailCorrection:ENTRY
18143 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
18143 : XISctiCorrection:ENTRY
18143 : XISctiCorrection:OK
1 : XISgrade:BEGIN
18143 : XISgrade:ENTRY
18143 : XISgrade:OK
1 : XISpha2pi:BEGIN
18143 : XISpha2pi:ENTRY
18143 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
18143 : XISeditEventFits:ENTRY
18143 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 72578 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 18143 90715 SINGLE
XIS:RAWX 4 4 18143 54429 SINGLE
XIS:RAWY 4 4 18143 36286 SINGLE
XIS:ACTX 4 4 18143 18143 SINGLE
XIS:ACTY 4 4 18143 54429 SINGLE
XIS:DETX 4 4 18143 18143 SINGLE
XIS:DETY 4 4 18143 18143 SINGLE
XIS:FOCX 4 4 18143 18143 SINGLE
XIS:FOCY 4 4 18143 18143 SINGLE
XIS:X 4 4 18143 18143 SINGLE
XIS:Y 4 4 18143 18143 SINGLE
XIS:STATUS 4 4 18143 18143 SINGLE
XIS:PHAS 36 36 18143 36286 SINGLE
XIS:PHANOCTI 4 4 36286 18143 SINGLE
XIS:PHA 4 4 36286 18143 SINGLE
XIS:PI 4 4 36286 18143 SINGLE
XIS:GRADE 4 4 36286 18143 SINGLE
XIS:P_OUTER_MOST 4 4 18143 36286 SINGLE
XIS:SUM_OUTER_MOST 4 4 18143 36286 SINGLE
XIS:AEDATE 4 4 18143 18143 FAMILY
XIS:EXPTIME 4 4 18143 18143 FAMILY
XIS:EXPTIME_AETIME 8 8 18143 18143 SINGLE
XIS:S_TIME 8 8 18143 18143 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18143 18143 FAMILY
XIS:EVENT_SEQ_NO 4 4 18143 18143 SINGLE
XIS:TIME 8 8 18143 90715 SINGLE
XIS:EXP_CENT_AETIME 8 8 18143 18143 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 18145 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 36286 18143 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 18143 18143 SINGLE
XIS:PHASCORR 72 72 54429 54429 SINGLE
XIS:PHA:DOUBLE 8 8 18143 18143 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.017 0.009 0.026 1.20
[ 2] XISreadExp 0.004 0.006 0.010 0.46
[ 3] XISreadEvent 0.318 0.015 0.333 15.42
[ 4] XISpreparePHASCORR 0.027 0.008 0.035 1.62
[ 5] XIStrailCorrection 0.063 0.009 0.072 3.33
[ 6] XISctiCorrection 0.825 0.332 1.157 53.59
[ 7] XISgrade 0.067 0.014 0.081 3.75
[ 8] XISpha2pi 0.058 0.023 0.081 3.75
[ 9] XISeditEventFits 0.314 0.024 0.338 15.66
(others) 0.018 0.008 0.026 1.20
--------------------------------------------------------------------------
TOTAL 1.711 0.448 2.159 100.00
-> xispi successful on ae803005010xi0_3_3x3n066.sff.infile,f,a,"ae803005010xi0_3_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi0_3_3x3n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_3_3x3n066.sff
OUTFILE ae803005010xi0_3_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi0_3_3x3n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 18143 events )
saturated frame, t=267529548.905 - 267529556.905 -52 (52/0) seg=1111
... 10% ( 1814 / 18143 events )
... 20% ( 3628 / 18143 events )
... 30% ( 5442 / 18143 events )
... 40% ( 7256 / 18143 events )
... 50% ( 9070 / 18143 events )
... 60% ( 10884 / 18143 events )
... 70% ( 12698 / 18143 events )
... 80% ( 14512 / 18143 events )
... 90% ( 16326 / 18143 events )
... 100% ( 18143 / 18143 events )
XIScheckEventNo: GTI file 'ae803005010xi0_3_3x3n066.gti' created
N_FRAMES = 381 / number of frames in the input event file
N_TESTED = 381 / number of non-zero frames tested
N_PASSED = 380 / number of frames passed the test
N_T_JUMP = 0 / number of frames detected time jump
N_SATURA = 1 / number of frames telemetry saturated
T_TESTED = 3048.000000 / exposure of non-zero frames tested
T_PASSED = 3040.000000 / exposure of frames passed the test
T_T_JUMP = 0.000000 / loss of exposure due to time jump
T_SATURA = 8.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 382
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 381/382
[ 2] XISreadExp version 1.6
| OK: 381/381
[ 3] XISreadEvent version 2.7 <------- LOOP: 18143
| OK: 18143/18524 -------> SKIP: 381
[ 4] XIScheckEventNo version 1.2
| OK: 18143/18143
GET: 18143
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
381 : XISreadFrame:ENTRY
381 : XISreadFrame:OK
1 : XISreadExp:BEGIN
381 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18524 : XISreadEvent:ENTRY
18523 : XISreadEvent:OK
381 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
18143 : XIScheckEventNo:ENTRY
18143 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 381 18524 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 381 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 381 18524 SINGLE
XIS:FRAMES:S_TIME 8 8 381 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 381 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 381 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 381 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 381 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 381 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 381 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 381 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 381 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 381 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 381 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 381 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 381 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 381 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 381 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 381 381 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 381 0 SINGLE
XIS:FRAMES:BIAS 16 16 381 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 381 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 381 0 SINGLE
XIS:FRAMES:AEDATE 4 4 381 18524 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 381 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 381 18143 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 381 381 SINGLE
XIS:FRAMES:TIME 8 8 381 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 18143 18143 SINGLE
XIS:RAWX 4 4 18143 0 SINGLE
XIS:RAWY 4 4 18143 0 SINGLE
XIS:ACTX 4 4 18143 0 SINGLE
XIS:ACTY 4 4 18143 0 SINGLE
XIS:DETX 4 4 18143 0 SINGLE
XIS:DETY 4 4 18143 0 SINGLE
XIS:FOCX 4 4 18143 0 SINGLE
XIS:FOCY 4 4 18143 0 SINGLE
XIS:X 4 4 18143 0 SINGLE
XIS:Y 4 4 18143 0 SINGLE
XIS:STATUS 4 4 18143 0 SINGLE
XIS:PHAS 36 36 18143 0 SINGLE
XIS:PHANOCTI 4 4 18143 0 SINGLE
XIS:PHA 4 4 18143 0 SINGLE
XIS:PI 4 4 18143 0 SINGLE
XIS:GRADE 4 4 18143 0 SINGLE
XIS:P_OUTER_MOST 4 4 18143 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 18143 0 SINGLE
XIS:AEDATE 4 4 18143 18523 FAMILY
XIS:EXPTIME 4 4 18143 18523 FAMILY
XIS:EXPTIME_AETIME 8 8 18143 0 SINGLE
XIS:S_TIME 8 8 18143 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18143 18523 FAMILY
XIS:EVENT_SEQ_NO 4 4 18143 18523 SINGLE
XIS:TIME 8 8 18143 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 18143 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.099 0.003 0.102 17.35
[ 2] XISreadExp 0.003 0.000 0.003 0.51
[ 3] XISreadEvent 0.430 0.011 0.441 75.00
[ 4] XIScheckEventNo 0.012 0.011 0.023 3.91
(others) 0.011 0.008 0.019 3.23
--------------------------------------------------------------------------
TOTAL 0.555 0.033 0.588 100.00
-> xisgtigen successful on ae803005010xi0_3_3x3n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi1_1_3x3n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi1_1_3x3n069.fff.infile,f,a,"ae803005010xi1_1_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_3x3n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_1_3x3n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 606088 events )
... 10% ( 60608 / 606088 events )
Event... 100001 (100000)
... 20% ( 121216 / 606088 events )
... 30% ( 181824 / 606088 events )
Event... 200001 (200000)
... 40% ( 242432 / 606088 events )
Event... 300001 (300000)
... 50% ( 303040 / 606088 events )
... 60% ( 363648 / 606088 events )
Event... 400001 (400000)
... 70% ( 424256 / 606088 events )
... 80% ( 484864 / 606088 events )
Event... 500001 (500000)
... 90% ( 545472 / 606088 events )
Event... 600001 (600000)
... 100% ( 606088 / 606088 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267345628.929371 / time start
TSTOP = 267438812.917221 / time stop
TELAPASE = 93183.987851 / elapsed time = TSTOP - TSTART
ONTIME = 56383.992502 / on time = sum of all GTIs
LIVETIME = 56383.992502 / on-source time corrected for CCD exposure
EXPOSURE = 56383.992502 / exposure time
xisEventFitsUtil: rename ./fileL2Aa3y-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 606090
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 606089/606090
[ 2] XISreadExp version 1.6
| OK: 606089/606089
[ 3] XISreadEvent version 2.7
| OK: 606088/606089 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 606088/606088
[ 5] XISeditEventFits version 2.1
| OK: 606088/606088
GET: 606088
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
606089 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
606089 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
606089 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
606088 : XIStime:ENTRY
606088 : XIStime:OK
1 : XISeditEventFits:BEGIN
606088 : XISeditEventFits:ENTRY
606088 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 606088 606088 SINGLE
XIS:RAWX 4 4 606088 606088 SINGLE
XIS:RAWY 4 4 606088 606088 SINGLE
XIS:ACTX 4 4 606088 606088 SINGLE
XIS:ACTY 4 4 606088 606088 SINGLE
XIS:DETX 4 4 606088 606088 SINGLE
XIS:DETY 4 4 606088 606088 SINGLE
XIS:FOCX 4 4 606088 606088 SINGLE
XIS:FOCY 4 4 606088 606088 SINGLE
XIS:X 4 4 606088 606088 SINGLE
XIS:Y 4 4 606088 606088 SINGLE
XIS:STATUS 4 4 606088 606088 SINGLE
XIS:PHAS 36 36 606088 606088 SINGLE
XIS:PHANOCTI 4 4 606088 606088 SINGLE
XIS:PHA 4 4 606088 606088 SINGLE
XIS:PI 4 4 606088 606088 SINGLE
XIS:GRADE 4 4 606088 606088 SINGLE
XIS:P_OUTER_MOST 4 4 606088 606088 SINGLE
XIS:SUM_OUTER_MOST 4 4 606088 606088 SINGLE
XIS:AEDATE 4 4 1212176 606088 FAMILY
XIS:EXPTIME 4 4 606088 1212176 FAMILY
XIS:EXPTIME_AETIME 8 8 1212176 606088 SINGLE
XIS:S_TIME 8 8 606088 1212176 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 606088 1212176 FAMILY
XIS:EVENT_SEQ_NO 4 4 606088 606088 SINGLE
XIS:TIME 8 8 1212176 606088 SINGLE
XIS:EXP_CENT_AETIME 8 8 1212176 606088 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 606090 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.407 0.300 0.707 3.07
[ 2] XISreadExp 0.183 0.296 0.479 2.08
[ 3] XISreadEvent 10.001 0.587 10.588 45.97
[ 4] XIStime 1.216 0.322 1.538 6.68
[ 5] XISeditEventFits 8.978 0.729 9.707 42.14
(others) 0.010 0.006 0.016 0.07
--------------------------------------------------------------------------
TOTAL 20.795 2.240 23.034 100.00
-> xistime successful on ae803005010xi1_1_3x3n069.sff.infile,f,a,"ae803005010xi1_1_3x3n069.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_3x3n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_1_3x3n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 547.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 472.60 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 807.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 735.10 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 754.06 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 719.48 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 606088 events )
... 10% ( 60608 / 606088 events )
Event... 100001 (100000)
... 20% ( 121216 / 606088 events )
... 30% ( 181824 / 606088 events )
Event... 200001 (200000)
... 40% ( 242432 / 606088 events )
Event... 300001 (300000)
... 50% ( 303040 / 606088 events )
... 60% ( 363648 / 606088 events )
Event... 400001 (400000)
... 70% ( 424256 / 606088 events )
... 80% ( 484864 / 606088 events )
Event... 500001 (500000)
... 90% ( 545472 / 606088 events )
Event... 600001 (600000)
... 100% ( 606088 / 606088 events )
xisEventFitsUtil: rename ./fileYx8vHg-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 606090
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 606089/606090
[ 2] XISreadExp version 1.6
| OK: 606089/606089
[ 3] XISreadEvent version 2.7
| OK: 606088/606089 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 606088/606088
[ 5] XISeditEventFits version 2.1
| OK: 606088/606088
GET: 606088
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
606089 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
606089 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
606089 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
606088 : XIScoord:ENTRY
606088 : XIScoord:OK
1 : XISeditEventFits:BEGIN
606088 : XISeditEventFits:ENTRY
606088 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 606088 1212176 SINGLE
XIS:RAWX 4 4 606088 1212176 SINGLE
XIS:RAWY 4 4 606088 1212176 SINGLE
XIS:ACTX 4 4 1212176 606088 SINGLE
XIS:ACTY 4 4 1212176 606088 SINGLE
XIS:DETX 4 4 1212176 606088 SINGLE
XIS:DETY 4 4 1212176 606088 SINGLE
XIS:FOCX 4 4 1212176 606088 SINGLE
XIS:FOCY 4 4 1212176 606088 SINGLE
XIS:X 4 4 1212176 606088 SINGLE
XIS:Y 4 4 1212176 606088 SINGLE
XIS:STATUS 4 4 606088 606088 SINGLE
XIS:PHAS 36 36 606088 606088 SINGLE
XIS:PHANOCTI 4 4 606088 606088 SINGLE
XIS:PHA 4 4 606088 606088 SINGLE
XIS:PI 4 4 606088 606088 SINGLE
XIS:GRADE 4 4 606088 606088 SINGLE
XIS:P_OUTER_MOST 4 4 606088 606088 SINGLE
XIS:SUM_OUTER_MOST 4 4 606088 606088 SINGLE
XIS:AEDATE 4 4 606088 606088 FAMILY
XIS:EXPTIME 4 4 606088 606088 FAMILY
XIS:EXPTIME_AETIME 8 8 606088 606088 SINGLE
XIS:S_TIME 8 8 606088 606088 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 606088 606088 FAMILY
XIS:EVENT_SEQ_NO 4 4 606088 606088 SINGLE
XIS:TIME 8 8 606088 1212176 SINGLE
XIS:EXP_CENT_AETIME 8 8 606088 606088 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 606090 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.486 0.326 0.812 3.06
[ 2] XISreadExp 0.155 0.328 0.483 1.82
[ 3] XISreadEvent 10.201 0.508 10.709 40.36
[ 4] XIScoord 4.156 0.377 4.533 17.08
[ 5] XISeditEventFits 9.129 0.850 9.978 37.60
(others) 0.014 0.007 0.021 0.08
--------------------------------------------------------------------------
TOTAL 24.141 2.396 26.537 100.00
-> xiscoord successful on ae803005010xi1_1_3x3n069.sff.infile,f,a,"ae803005010xi1_1_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_3x3n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_1_3x3n069.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 606088 events )
... 10% ( 60608 / 606088 events )
Event... 100001 (100000)
... 20% ( 121216 / 606088 events )
... 30% ( 181824 / 606088 events )
Event... 200001 (200000)
... 40% ( 242432 / 606088 events )
Event... 300001 (300000)
... 50% ( 303040 / 606088 events )
... 60% ( 363648 / 606088 events )
Event... 400001 (400000)
... 70% ( 424256 / 606088 events )
... 80% ( 484864 / 606088 events )
Event... 500001 (500000)
... 90% ( 545472 / 606088 events )
Event... 600001 (600000)
... 100% ( 606088 / 606088 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 7694 1.27
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 17605 2.90
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 2367 0.39
B8 256 1PIX_FROM_SEGBOUNDARY 2302 0.38
B9 512 SCI_3rd_TRAILING_ROW 16079 2.65
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 23919 3.95
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 7994 1.32
B16 65536 CALMASK 64979 10.72
B17 131072 SEGBOUNDARY 5363 0.88
B18 262144 SCI_2nd_TRAILING_ROW 11844 1.95
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 65057 10.73
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 12966 2.14
B29 536870912 SCI_TRAILING_ROW 40409 6.67
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 41 0.01
### 0 CLEAN_ZERO 384234 63.40
--------------------------------------------------------------
+++ 4294967295 SUM 662853 109.37
::: 524287 SAFE(B0-18) 498424 82.24
>>> 4294967295 TOTAL 606088 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./file9GDt7W-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 606090
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 606089/606090
[ 2] XISreadExp version 1.6
| OK: 606089/606089
[ 3] XISreadEvent version 2.7
| OK: 606088/606089 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 606088/606088
[ 5] XISeditEventFits version 2.1
| OK: 606088/606088
GET: 606088
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
606089 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
606089 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
606089 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
606088 : XISputPixelQuality:ENTRY
606088 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
606088 : XISeditEventFits:ENTRY
606088 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 606088 606088 SINGLE
XIS:RAWX 4 4 606088 606088 SINGLE
XIS:RAWY 4 4 606088 1212176 SINGLE
XIS:ACTX 4 4 606088 1212176 SINGLE
XIS:ACTY 4 4 606088 1212176 SINGLE
XIS:DETX 4 4 606088 606088 SINGLE
XIS:DETY 4 4 606088 606088 SINGLE
XIS:FOCX 4 4 606088 606088 SINGLE
XIS:FOCY 4 4 606088 606088 SINGLE
XIS:X 4 4 606088 606088 SINGLE
XIS:Y 4 4 606088 606088 SINGLE
XIS:STATUS 4 4 1212176 606088 SINGLE
XIS:PHAS 36 36 606088 606088 SINGLE
XIS:PHANOCTI 4 4 606088 606088 SINGLE
XIS:PHA 4 4 606088 606088 SINGLE
XIS:PI 4 4 606088 606088 SINGLE
XIS:GRADE 4 4 606088 606088 SINGLE
XIS:P_OUTER_MOST 4 4 606088 606088 SINGLE
XIS:SUM_OUTER_MOST 4 4 606088 606088 SINGLE
XIS:AEDATE 4 4 606088 606088 FAMILY
XIS:EXPTIME 4 4 606088 606088 FAMILY
XIS:EXPTIME_AETIME 8 8 606088 606088 SINGLE
XIS:S_TIME 8 8 606088 606088 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 606088 606088 FAMILY
XIS:EVENT_SEQ_NO 4 4 606088 606088 SINGLE
XIS:TIME 8 8 606088 1212176 SINGLE
XIS:EXP_CENT_AETIME 8 8 606088 606088 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 606090 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.420 0.324 0.744 3.34
[ 2] XISreadExp 0.129 0.315 0.444 1.99
[ 3] XISreadEvent 9.749 0.386 10.134 45.52
[ 4] XISputPixelQuality 0.780 0.335 1.115 5.01
[ 5] XISeditEventFits 8.749 1.061 9.809 44.06
(others) 0.011 0.007 0.018 0.08
--------------------------------------------------------------------------
TOTAL 19.837 2.428 22.265 100.00
-> xisputpixelquality successful on ae803005010xi1_1_3x3n069.sff.infile,f,a,"ae803005010xi1_1_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi1_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_3x3n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_1_3x3n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi1_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi1_0.hk, S1_VDCHK18_CAL, nrows=5662
nvalid=5323 nrej=339 time=267336985.4 - 267532653.4 [s]
AE-temp: average=19.759 sigma=1.599 min=16.410 max=22.523 [degC]
Event... 1 (0)
... 0% ( 0 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 60608 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 121216 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 181824 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 242432 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 303040 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 363648 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 400001 (400000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 424256 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 484864 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 500001 (500000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 545472 / 606088 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 600001 (600000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 606088 / 606088 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filelO0xBm-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 606090
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 606089/606090
[ 2] XISreadExp version 1.6
| OK: 606089/606089
[ 3] XISreadEvent version 2.7
| OK: 606088/606089 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 606088/606088
[ 5] XIStrailCorrection version 3.1
| OK: 606088/606088
[ 6] XISctiCorrection version 3.4
| OK: 606088/606088
[ 7] XISgrade version 3.3
| OK: 606088/606088
[ 8] XISpha2pi version 3.2
| OK: 606088/606088
[ 9] XISeditEventFits version 2.1
| OK: 606088/606088
GET: 606088
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
606089 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
606089 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
606089 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
606088 : XISpreparePHASCORR:ENTRY
606088 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
606088 : XIStrailCorrection:ENTRY
606088 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
606088 : XISctiCorrection:ENTRY
606088 : XISctiCorrection:OK
1 : XISgrade:BEGIN
606088 : XISgrade:ENTRY
606088 : XISgrade:OK
1 : XISpha2pi:BEGIN
606088 : XISpha2pi:ENTRY
606088 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
606088 : XISeditEventFits:ENTRY
606088 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2424358 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 606088 3030440 SINGLE
XIS:RAWX 4 4 606088 1818264 SINGLE
XIS:RAWY 4 4 606088 1212176 SINGLE
XIS:ACTX 4 4 606088 606088 SINGLE
XIS:ACTY 4 4 606088 1818264 SINGLE
XIS:DETX 4 4 606088 606088 SINGLE
XIS:DETY 4 4 606088 606088 SINGLE
XIS:FOCX 4 4 606088 606088 SINGLE
XIS:FOCY 4 4 606088 606088 SINGLE
XIS:X 4 4 606088 606088 SINGLE
XIS:Y 4 4 606088 606088 SINGLE
XIS:STATUS 4 4 606088 606088 SINGLE
XIS:PHAS 36 36 606088 1212176 SINGLE
XIS:PHANOCTI 4 4 1212176 606088 SINGLE
XIS:PHA 4 4 1212176 606088 SINGLE
XIS:PI 4 4 1212176 606088 SINGLE
XIS:GRADE 4 4 1212176 606088 SINGLE
XIS:P_OUTER_MOST 4 4 606088 1212176 SINGLE
XIS:SUM_OUTER_MOST 4 4 606088 1212176 SINGLE
XIS:AEDATE 4 4 606088 606088 FAMILY
XIS:EXPTIME 4 4 606088 606088 FAMILY
XIS:EXPTIME_AETIME 8 8 606088 606088 SINGLE
XIS:S_TIME 8 8 606088 606088 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 606088 606088 FAMILY
XIS:EVENT_SEQ_NO 4 4 606088 606088 SINGLE
XIS:TIME 8 8 606088 3030440 SINGLE
XIS:EXP_CENT_AETIME 8 8 606088 606088 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 606090 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 1212176 606088 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 606088 606088 SINGLE
XIS:PHASCORR 72 72 1818264 1818264 SINGLE
XIS:PHA:DOUBLE 8 8 606088 606088 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.515 0.320 0.835 1.59
[ 2] XISreadExp 0.155 0.278 0.433 0.82
[ 3] XISreadEvent 10.266 0.512 10.778 20.50
[ 4] XISpreparePHASCORR 0.567 0.331 0.898 1.71
[ 5] XIStrailCorrection 1.343 0.311 1.654 3.14
[ 6] XISctiCorrection 17.729 6.565 24.294 46.20
[ 7] XISgrade 1.917 0.320 2.237 4.25
[ 8] XISpha2pi 1.278 0.293 1.571 2.99
[ 9] XISeditEventFits 9.129 0.730 9.859 18.75
(others) 0.018 0.008 0.026 0.05
--------------------------------------------------------------------------
TOTAL 42.916 9.668 52.584 100.00
-> xispi successful on ae803005010xi1_1_3x3n069.sff.infile,f,a,"ae803005010xi1_1_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi1_1_3x3n069.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_3x3n069.sff
OUTFILE ae803005010xi1_1_3x3n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi1_1_3x3n069.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 606088 events )
frame time jump, t=267347716.929 - 267349868.929 by 2152.000 s
frame time jump, t=267353836.928 - 267355620.928 by 1784.000 s
saturated frame, t=267355620.928 - 267355628.928 66 (88/154) seg=1111
... 10% ( 60608 / 606088 events )
saturated frame, t=267357588.928 - 267357596.928 261 (325/586) seg=1111
frame time jump, t=267359956.927 - 267361372.927 by 1416.000 s
... 20% ( 121216 / 606088 events )
saturated frame, t=267366132.927 - 267366140.927 133 (173/306) seg=1111
frame time jump, t=267366140.927 - 267367108.927 by 968.000 s
frame time jump, t=267370732.926 - 267372876.926 by 2144.000 s
... 30% ( 181824 / 606088 events )
frame time jump, t=267376492.925 - 267378636.925 by 2144.000 s
... 40% ( 242432 / 606088 events )
frame time jump, t=267382236.925 - 267384380.924 by 2144.000 s
saturated frame, t=267387972.924 - 267387980.924 1 (173/174) seg=1111
frame time jump, t=267387980.924 - 267390124.924 by 2144.000 s
... 50% ( 303040 / 606088 events )
saturated frame, t=267390900.923 - 267390908.923 262 (373/635) seg=1111
saturated frame, t=267392940.923 - 267392948.923 142 (373/515) seg=1111
saturated frame, t=267392948.923 - 267392956.923 1423 (418/1841) seg=1111
frame time jump, t=267393740.923 - 267395884.923 by 2144.000 s
saturated frame, t=267396388.923 - 267396396.923 30 (405/435) seg=1111
... 60% ( 363648 / 606088 events )
saturated frame, t=267399388.922 - 267399396.922 2 (404/406) seg=1111
frame time jump, t=267399500.922 - 267401644.922 by 2144.000 s
... 70% ( 424256 / 606088 events )
frame time jump, t=267403852.922 - 267404940.922 by 1088.000 s
saturated frame, t=267404940.922 - 267404948.922 41012 (309/41321) seg=1111
saturated frame, t=267404948.922 - 267404956.922 35994 (286/36280) seg=1111
frame time jump, t=267404956.922 - 267405004.922 by 48.000 s
saturated frame, t=267405004.922 - 267405012.922 27219 (286/27505) seg=1111
saturated frame, t=267405012.922 - 267405020.922 987 (413/1400) seg=1111
saturated frame, t=267405020.922 - 267405028.922 334 (404/738) seg=1111
saturated frame, t=267405028.922 - 267405036.922 299 (404/703) seg=1111
saturated frame, t=267405036.922 - 267405044.922 273 (405/678) seg=1111
saturated frame, t=267405044.922 - 267405052.922 121 (407/528) seg=1111
saturated frame, t=267405052.922 - 267405060.922 204 (401/605) seg=1111
saturated frame, t=267405060.922 - 267405068.922 183 (401/584) seg=1111
saturated frame, t=267405068.922 - 267405076.922 287 (399/686) seg=1111
frame time jump, t=267405076.922 - 267407396.921 by 2320.000 s
frame time jump, t=267409716.921 - 267413140.921 by 3424.000 s
... 80% ( 484864 / 606088 events )
frame time jump, t=267415652.920 - 267418892.920 by 3240.000 s
frame time jump, t=267421756.919 - 267424644.919 by 2888.000 s
... 90% ( 545472 / 606088 events )
frame time jump, t=267427908.919 - 267430396.918 by 2488.000 s
saturated frame, t=267430396.918 - 267430404.918 198 (86/284) seg=1111
saturated frame, t=267430404.918 - 267430412.918 78 (218/296) seg=1111
frame time jump, t=267434028.918 - 267436148.918 by 2120.000 s
... 100% ( 606088 / 606088 events )
XIScheckEventNo: GTI file 'ae803005010xi1_1_3x3n069.gti' created
N_FRAMES = 7054 / number of frames in the input event file
N_TESTED = 7048 / number of non-zero frames tested
N_PASSED = 7026 / number of frames passed the test
N_T_JUMP = 18 / number of frames detected time jump
N_SATURA = 22 / number of frames telemetry saturated
T_TESTED = 56384.000000 / exposure of non-zero frames tested
T_PASSED = 56208.000000 / exposure of frames passed the test
T_T_JUMP = 36799.995349 / loss of exposure due to time jump
T_SATURA = 176.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7055
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 7054/7055
[ 2] XISreadExp version 1.6
| OK: 7054/7054
[ 3] XISreadEvent version 2.7 <------- LOOP: 606088
| OK: 606088/613142 -------> SKIP: 7054
[ 4] XIScheckEventNo version 1.2
| OK: 606088/606088
GET: 606088
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
7054 : XISreadFrame:ENTRY
7054 : XISreadFrame:OK
1 : XISreadExp:BEGIN
7054 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
613142 : XISreadEvent:ENTRY
613141 : XISreadEvent:OK
7048 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
606088 : XIScheckEventNo:ENTRY
606088 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 7054 613142 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 7054 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 7054 613142 SINGLE
XIS:FRAMES:S_TIME 8 8 7054 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 7054 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 7054 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 7054 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 7054 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 7054 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 7054 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 7054 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 7054 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 7054 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 7054 7048 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 7054 0 SINGLE
XIS:FRAMES:BIAS 16 16 7054 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 7054 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 7054 0 SINGLE
XIS:FRAMES:AEDATE 4 4 7054 613142 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 7054 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 7054 606088 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 7054 7048 SINGLE
XIS:FRAMES:TIME 8 8 7054 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 606088 606088 SINGLE
XIS:RAWX 4 4 606088 0 SINGLE
XIS:RAWY 4 4 606088 0 SINGLE
XIS:ACTX 4 4 606088 0 SINGLE
XIS:ACTY 4 4 606088 0 SINGLE
XIS:DETX 4 4 606088 0 SINGLE
XIS:DETY 4 4 606088 0 SINGLE
XIS:FOCX 4 4 606088 0 SINGLE
XIS:FOCY 4 4 606088 0 SINGLE
XIS:X 4 4 606088 0 SINGLE
XIS:Y 4 4 606088 0 SINGLE
XIS:STATUS 4 4 606088 0 SINGLE
XIS:PHAS 36 36 606088 0 SINGLE
XIS:PHANOCTI 4 4 606088 0 SINGLE
XIS:PHA 4 4 606088 0 SINGLE
XIS:PI 4 4 606088 0 SINGLE
XIS:GRADE 4 4 606088 0 SINGLE
XIS:P_OUTER_MOST 4 4 606088 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 606088 0 SINGLE
XIS:AEDATE 4 4 606088 613141 FAMILY
XIS:EXPTIME 4 4 606088 613141 FAMILY
XIS:EXPTIME_AETIME 8 8 606088 0 SINGLE
XIS:S_TIME 8 8 606088 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 606088 613141 FAMILY
XIS:EVENT_SEQ_NO 4 4 606088 613141 SINGLE
XIS:TIME 8 8 606088 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 606088 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 1.679 0.024 1.703 11.53
[ 2] XISreadExp 0.006 0.007 0.013 0.09
[ 3] XISreadEvent 12.053 0.382 12.435 84.22
[ 4] XIScheckEventNo 0.285 0.310 0.595 4.03
(others) 0.012 0.007 0.019 0.13
--------------------------------------------------------------------------
TOTAL 14.035 0.730 14.765 100.00
-> xisgtigen successful on ae803005010xi1_1_3x3n069.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi1_1_5x5n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi1_1_5x5n069.fff.infile,f,a,"ae803005010xi1_1_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_5x5n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_1_5x5n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 161395 events )
... 10% ( 16139 / 161395 events )
... 20% ( 32278 / 161395 events )
... 30% ( 48417 / 161395 events )
... 40% ( 64556 / 161395 events )
... 50% ( 80695 / 161395 events )
... 60% ( 96834 / 161395 events )
Event... 100001 (100000)
... 70% ( 112973 / 161395 events )
... 80% ( 129112 / 161395 events )
... 90% ( 145251 / 161395 events )
... 100% ( 161395 / 161395 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267336980.930548 / time start
TSTOP = 267345628.929372 / time stop
TELAPASE = 8647.998823 / elapsed time = TSTOP - TSTART
ONTIME = 7095.999051 / on time = sum of all GTIs
LIVETIME = 7095.999051 / on-source time corrected for CCD exposure
EXPOSURE = 7095.999051 / exposure time
xisEventFitsUtil: rename ./fileJbgOQ6-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 161397
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 161396/161397
[ 2] XISreadExp version 1.6
| OK: 161396/161396
[ 3] XISreadEvent version 2.7
| OK: 161395/161396 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 161395/161395
[ 5] XISeditEventFits version 2.1
| OK: 161395/161395
GET: 161395
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
161396 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
161396 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
161396 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
161395 : XIStime:ENTRY
161395 : XIStime:OK
1 : XISeditEventFits:BEGIN
161395 : XISeditEventFits:ENTRY
161395 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 161395 161395 SINGLE
XIS:RAWX 4 4 161395 161395 SINGLE
XIS:RAWY 4 4 161395 161395 SINGLE
XIS:ACTX 4 4 161395 161395 SINGLE
XIS:ACTY 4 4 161395 161395 SINGLE
XIS:DETX 4 4 161395 161395 SINGLE
XIS:DETY 4 4 161395 161395 SINGLE
XIS:FOCX 4 4 161395 161395 SINGLE
XIS:FOCY 4 4 161395 161395 SINGLE
XIS:X 4 4 161395 161395 SINGLE
XIS:Y 4 4 161395 161395 SINGLE
XIS:STATUS 4 4 161395 161395 SINGLE
XIS:PHAS 100 100 161395 161395 SINGLE
XIS:PHANOCTI 4 4 161395 161395 SINGLE
XIS:PHA 4 4 161395 161395 SINGLE
XIS:PI 4 4 161395 161395 SINGLE
XIS:GRADE 4 4 161395 161395 SINGLE
XIS:AEDATE 4 4 322790 161395 FAMILY
XIS:EXPTIME 4 4 161395 322790 FAMILY
XIS:EXPTIME_AETIME 8 8 322790 161395 SINGLE
XIS:S_TIME 8 8 161395 322790 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 161395 322790 FAMILY
XIS:EVENT_SEQ_NO 4 4 161395 161395 SINGLE
XIS:TIME 8 8 322790 161395 SINGLE
XIS:EXP_CENT_AETIME 8 8 322790 161395 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 161397 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.087 0.097 0.184 3.06
[ 2] XISreadExp 0.038 0.079 0.117 1.94
[ 3] XISreadEvent 2.532 0.211 2.743 45.60
[ 4] XIStime 0.417 0.083 0.500 8.31
[ 5] XISeditEventFits 2.235 0.220 2.455 40.81
(others) 0.010 0.007 0.017 0.28
--------------------------------------------------------------------------
TOTAL 5.318 0.697 6.015 100.00
-> xistime successful on ae803005010xi1_1_5x5n069.sff.infile,f,a,"ae803005010xi1_1_5x5n069.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_5x5n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_1_5x5n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 0
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 547.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 472.60 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 807.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 735.10 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 754.06 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 719.48 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 161395 events )
... 10% ( 16139 / 161395 events )
... 20% ( 32278 / 161395 events )
... 30% ( 48417 / 161395 events )
... 40% ( 64556 / 161395 events )
... 50% ( 80695 / 161395 events )
... 60% ( 96834 / 161395 events )
Event... 100001 (100000)
... 70% ( 112973 / 161395 events )
... 80% ( 129112 / 161395 events )
... 90% ( 145251 / 161395 events )
... 100% ( 161395 / 161395 events )
xisEventFitsUtil: rename ./fileevueaH-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 161397
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 161396/161397
[ 2] XISreadExp version 1.6
| OK: 161396/161396
[ 3] XISreadEvent version 2.7
| OK: 161395/161396 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 161395/161395
[ 5] XISeditEventFits version 2.1
| OK: 161395/161395
GET: 161395
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
161396 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
161396 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
161396 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
161395 : XIScoord:ENTRY
161395 : XIScoord:OK
1 : XISeditEventFits:BEGIN
161395 : XISeditEventFits:ENTRY
161395 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 161395 322790 SINGLE
XIS:RAWX 4 4 161395 322790 SINGLE
XIS:RAWY 4 4 161395 322790 SINGLE
XIS:ACTX 4 4 322790 161395 SINGLE
XIS:ACTY 4 4 322790 161395 SINGLE
XIS:DETX 4 4 322790 161395 SINGLE
XIS:DETY 4 4 322790 161395 SINGLE
XIS:FOCX 4 4 322790 161395 SINGLE
XIS:FOCY 4 4 322790 161395 SINGLE
XIS:X 4 4 322790 161395 SINGLE
XIS:Y 4 4 322790 161395 SINGLE
XIS:STATUS 4 4 161395 161395 SINGLE
XIS:PHAS 100 100 161395 161395 SINGLE
XIS:PHANOCTI 4 4 161395 161395 SINGLE
XIS:PHA 4 4 161395 161395 SINGLE
XIS:PI 4 4 161395 161395 SINGLE
XIS:GRADE 4 4 161395 161395 SINGLE
XIS:AEDATE 4 4 161395 161395 FAMILY
XIS:EXPTIME 4 4 161395 161395 FAMILY
XIS:EXPTIME_AETIME 8 8 161395 161395 SINGLE
XIS:S_TIME 8 8 161395 161395 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 161395 161395 FAMILY
XIS:EVENT_SEQ_NO 4 4 161395 161395 SINGLE
XIS:TIME 8 8 161395 322790 SINGLE
XIS:EXP_CENT_AETIME 8 8 161395 161395 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 161397 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.100 0.100 0.200 2.90
[ 2] XISreadExp 0.037 0.089 0.126 1.83
[ 3] XISreadEvent 2.588 0.162 2.750 39.92
[ 4] XIScoord 1.083 0.102 1.185 17.20
[ 5] XISeditEventFits 2.358 0.248 2.606 37.83
(others) 0.014 0.008 0.022 0.32
--------------------------------------------------------------------------
TOTAL 6.179 0.709 6.888 100.00
-> xiscoord successful on ae803005010xi1_1_5x5n069.sff.infile,f,a,"ae803005010xi1_1_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_5x5n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_1_5x5n069.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 161395 events )
... 10% ( 16139 / 161395 events )
... 20% ( 32278 / 161395 events )
... 30% ( 48417 / 161395 events )
... 40% ( 64556 / 161395 events )
... 50% ( 80695 / 161395 events )
... 60% ( 96834 / 161395 events )
Event... 100001 (100000)
... 70% ( 112973 / 161395 events )
... 80% ( 129112 / 161395 events )
... 90% ( 145251 / 161395 events )
... 100% ( 161395 / 161395 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 1820 1.13
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 4868 3.02
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 472 0.29
B8 256 1PIX_FROM_SEGBOUNDARY 883 0.55
B9 512 SCI_3rd_TRAILING_ROW 3510 2.17
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 5986 3.71
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 2072 1.28
B16 65536 CALMASK 10455 6.48
B17 131072 SEGBOUNDARY 1237 0.77
B18 262144 SCI_2nd_TRAILING_ROW 2557 1.58
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 19104 11.84
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 2285 1.42
B29 536870912 SCI_TRAILING_ROW 34679 21.49
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 71 0.04
### 0 CLEAN_ZERO 91875 56.93
--------------------------------------------------------------
+++ 4294967295 SUM 181874 112.69
::: 524287 SAFE(B0-18) 112791 69.89
>>> 4294967295 TOTAL 161395 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filePz71Oq-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 161397
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 161396/161397
[ 2] XISreadExp version 1.6
| OK: 161396/161396
[ 3] XISreadEvent version 2.7
| OK: 161395/161396 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 161395/161395
[ 5] XISeditEventFits version 2.1
| OK: 161395/161395
GET: 161395
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
161396 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
161396 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
161396 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
161395 : XISputPixelQuality:ENTRY
161395 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
161395 : XISeditEventFits:ENTRY
161395 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 161395 161395 SINGLE
XIS:RAWX 4 4 161395 161395 SINGLE
XIS:RAWY 4 4 161395 322790 SINGLE
XIS:ACTX 4 4 161395 322790 SINGLE
XIS:ACTY 4 4 161395 322790 SINGLE
XIS:DETX 4 4 161395 161395 SINGLE
XIS:DETY 4 4 161395 161395 SINGLE
XIS:FOCX 4 4 161395 161395 SINGLE
XIS:FOCY 4 4 161395 161395 SINGLE
XIS:X 4 4 161395 161395 SINGLE
XIS:Y 4 4 161395 161395 SINGLE
XIS:STATUS 4 4 322790 161395 SINGLE
XIS:PHAS 100 100 161395 161395 SINGLE
XIS:PHANOCTI 4 4 161395 161395 SINGLE
XIS:PHA 4 4 161395 161395 SINGLE
XIS:PI 4 4 161395 161395 SINGLE
XIS:GRADE 4 4 161395 161395 SINGLE
XIS:AEDATE 4 4 161395 161395 FAMILY
XIS:EXPTIME 4 4 161395 161395 FAMILY
XIS:EXPTIME_AETIME 8 8 161395 161395 SINGLE
XIS:S_TIME 8 8 161395 161395 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 161395 161395 FAMILY
XIS:EVENT_SEQ_NO 4 4 161395 161395 SINGLE
XIS:TIME 8 8 161395 322790 SINGLE
XIS:EXP_CENT_AETIME 8 8 161395 161395 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 161397 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.122 0.089 0.211 3.63
[ 2] XISreadExp 0.038 0.068 0.106 1.82
[ 3] XISreadEvent 2.430 0.078 2.508 43.15
[ 4] XISputPixelQuality 0.250 0.086 0.336 5.78
[ 5] XISeditEventFits 2.309 0.324 2.633 45.30
(others) 0.009 0.009 0.018 0.31
--------------------------------------------------------------------------
TOTAL 5.157 0.654 5.811 100.00
-> xisputpixelquality successful on ae803005010xi1_1_5x5n069.sff.infile,f,a,"ae803005010xi1_1_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi1_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_5x5n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_1_5x5n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi1_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi1_0.hk, S1_VDCHK18_CAL, nrows=5662
nvalid=5323 nrej=339 time=267336985.4 - 267532653.4 [s]
AE-temp: average=19.759 sigma=1.599 min=16.410 max=22.523 [degC]
Event... 1 (0)
... 0% ( 0 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 16139 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 32278 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 48417 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 64556 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 80695 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 96834 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 112973 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 129112 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 145251 / 161395 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 161395 / 161395 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileC01VN1-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 161397
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 161396/161397
[ 2] XISreadExp version 1.6
| OK: 161396/161396
[ 3] XISreadEvent version 2.7
| OK: 161395/161396 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 161395/161395
[ 5] XIStrailCorrection version 3.1
| OK: 161395/161395
[ 6] XISctiCorrection version 3.4
| OK: 161395/161395
[ 7] XISgrade version 3.3
| OK: 161395/161395
[ 8] XISpha2pi version 3.2
| OK: 161395/161395
[ 9] XISeditEventFits version 2.1
| OK: 161395/161395
GET: 161395
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
161396 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
161396 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
161396 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
161395 : XISpreparePHASCORR:ENTRY
161395 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
161395 : XIStrailCorrection:ENTRY
161395 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
161395 : XISctiCorrection:ENTRY
161395 : XISctiCorrection:OK
1 : XISgrade:BEGIN
161395 : XISgrade:ENTRY
161395 : XISgrade:OK
1 : XISpha2pi:BEGIN
161395 : XISpha2pi:ENTRY
161395 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
161395 : XISeditEventFits:ENTRY
161395 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 189/5000
buffer size : 120000
buffer used : 4768
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 645586 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 161395 806975 SINGLE
XIS:RAWX 4 4 161395 484185 SINGLE
XIS:RAWY 4 4 161395 322790 SINGLE
XIS:ACTX 4 4 161395 161395 SINGLE
XIS:ACTY 4 4 161395 484185 SINGLE
XIS:DETX 4 4 161395 161395 SINGLE
XIS:DETY 4 4 161395 161395 SINGLE
XIS:FOCX 4 4 161395 161395 SINGLE
XIS:FOCY 4 4 161395 161395 SINGLE
XIS:X 4 4 161395 161395 SINGLE
XIS:Y 4 4 161395 161395 SINGLE
XIS:STATUS 4 4 161395 161395 SINGLE
XIS:PHAS 100 100 161395 322790 SINGLE
XIS:PHANOCTI 4 4 322790 161395 SINGLE
XIS:PHA 4 4 322790 161395 SINGLE
XIS:PI 4 4 322790 161395 SINGLE
XIS:GRADE 4 4 322790 161395 SINGLE
XIS:AEDATE 4 4 161395 161395 FAMILY
XIS:EXPTIME 4 4 161395 161395 FAMILY
XIS:EXPTIME_AETIME 8 8 161395 161395 SINGLE
XIS:S_TIME 8 8 161395 161395 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 161395 161395 FAMILY
XIS:EVENT_SEQ_NO 4 4 161395 161395 SINGLE
XIS:TIME 8 8 161395 806975 SINGLE
XIS:EXP_CENT_AETIME 8 8 161395 161395 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 161397 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 322790 161395 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 161395 161395 SINGLE
XIS:PHASCORR 200 200 484185 484185 SINGLE
XIS:PHA:DOUBLE 8 8 161395 161395 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.123 0.082 0.205 1.41
[ 2] XISreadExp 0.043 0.086 0.129 0.89
[ 3] XISreadEvent 2.717 0.113 2.830 19.44
[ 4] XISpreparePHASCORR 0.143 0.090 0.233 1.60
[ 5] XIStrailCorrection 0.328 0.074 0.402 2.76
[ 6] XISctiCorrection 6.158 0.895 7.053 48.44
[ 7] XISgrade 0.525 0.087 0.612 4.20
[ 8] XISpha2pi 0.382 0.092 0.474 3.26
[ 9] XISeditEventFits 2.354 0.242 2.596 17.83
(others) 0.018 0.008 0.026 0.18
--------------------------------------------------------------------------
TOTAL 12.790 1.769 14.559 100.00
-> xispi successful on ae803005010xi1_1_5x5n069.sff.infile,f,a,"ae803005010xi1_1_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi1_1_5x5n069.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_5x5n069.sff
OUTFILE ae803005010xi1_1_5x5n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi1_1_5x5n069.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 161395 events )
saturated frame, t=267336980.931 - 267336988.931 39826 (819/40645) seg=1111
saturated frame, t=267336988.931 - 267336996.931 37356 (808/38164) seg=1111
frame time jump, t=267336996.931 - 267337052.931 by 56.000 s
saturated frame, t=267337052.931 - 267337060.931 28927 (808/29735) seg=1111
saturated frame, t=267337060.931 - 267337068.931 3474 (1454/4928) seg=1111
saturated frame, t=267337068.931 - 267337076.931 2036 (1443/3479) seg=1111
saturated frame, t=267337076.931 - 267337084.931 2100 (1451/3551) seg=1111
saturated frame, t=267337084.931 - 267337092.931 2273 (1444/3717) seg=1111
saturated frame, t=267337092.931 - 267337100.931 2352 (1450/3802) seg=1111
saturated frame, t=267337100.931 - 267337108.931 2601 (1451/4052) seg=1111
saturated frame, t=267337108.931 - 267337116.931 2910 (1450/4360) seg=1111
saturated frame, t=267337116.931 - 267337124.931 3818 (1448/5266) seg=1111
saturated frame, t=267337124.931 - 267337132.931 3698 (1454/5152) seg=1111
... 10% ( 16139 / 161395 events )
saturated frame, t=267337132.931 - 267337140.931 3680 (1452/5132) seg=1111
saturated frame, t=267337140.931 - 267337148.931 3153 (1445/4598) seg=1111
saturated frame, t=267337148.931 - 267337156.931 1568 (1449/3017) seg=1111
... 20% ( 32278 / 161395 events )
saturated frame, t=267337812.930 - 267337820.930 128 (1450/1578) seg=1111
saturated frame, t=267337860.930 - 267337868.930 362 (1455/1817) seg=1111
saturated frame, t=267337916.930 - 267337924.930 4571 (1457/6028) seg=1111
saturated frame, t=267337940.930 - 267337948.930 2426 (1458/3884) seg=1111
saturated frame, t=267337972.930 - 267337980.930 1413 (1457/2870) seg=1111
saturated frame, t=267337980.930 - 267337988.930 1523 (1456/2979) seg=1111
saturated frame, t=267337988.930 - 267337996.930 2006 (1455/3461) seg=1111
... 30% ( 48417 / 161395 events )
saturated frame, t=267337996.930 - 267338004.930 2223 (1456/3679) seg=1111
saturated frame, t=267338004.930 - 267338012.930 1491 (1456/2947) seg=1111
saturated frame, t=267338012.930 - 267338020.930 552 (1451/2003) seg=1111
saturated frame, t=267338020.930 - 267338028.930 542 (1454/1996) seg=1111
saturated frame, t=267338028.930 - 267338036.930 334 (1457/1791) seg=1111
saturated frame, t=267338036.930 - 267338044.930 195 (1454/1649) seg=1111
saturated frame, t=267338180.930 - 267338188.930 1176 (1458/2634) seg=1111
... 40% ( 64556 / 161395 events )
... 50% ( 80695 / 161395 events )
... 60% ( 96834 / 161395 events )
frame time jump, t=267341612.930 - 267343060.930 by 1448.000 s
saturated frame, t=267343060.930 - 267343068.930 39641 (979/40620) seg=1111
saturated frame, t=267343068.930 - 267343076.930 37307 (808/38115) seg=1111
frame time jump, t=267343076.930 - 267343124.930 by 48.000 s
saturated frame, t=267343124.930 - 267343132.930 28744 (808/29552) seg=1111
saturated frame, t=267343132.930 - 267343140.930 30847 (1455/32302) seg=1111
saturated frame, t=267343140.930 - 267343148.930 29493 (1456/30949) seg=1111
saturated frame, t=267343148.930 - 267343156.930 28412 (1455/29867) seg=1111
saturated frame, t=267343156.930 - 267343164.930 30675 (1456/32131) seg=1111
saturated frame, t=267343164.930 - 267343172.930 30016 (1456/31472) seg=1111
saturated frame, t=267343172.930 - 267343180.930 29544 (1457/31001) seg=1111
saturated frame, t=267343180.930 - 267343188.930 28860 (1455/30315) seg=1111
saturated frame, t=267343188.930 - 267343196.930 29057 (1455/30512) seg=1111
... 70% ( 112973 / 161395 events )
saturated frame, t=267343196.930 - 267343204.930 29185 (1456/30641) seg=1111
saturated frame, t=267343204.930 - 267343212.930 29246 (1455/30701) seg=1111
saturated frame, t=267343212.930 - 267343220.930 29769 (1453/31222) seg=1111
saturated frame, t=267343220.930 - 267343228.930 29784 (1457/31241) seg=1111
saturated frame, t=267343228.930 - 267343236.930 14815 (1453/16268) seg=1111
... 80% ( 129112 / 161395 events )
saturated frame, t=267343692.930 - 267343700.930 321 (1454/1775) seg=1111
... 90% ( 145251 / 161395 events )
... 100% ( 161395 / 161395 events )
XIScheckEventNo: GTI file 'ae803005010xi1_1_5x5n069.gti' created
N_FRAMES = 900 / number of frames in the input event file
N_TESTED = 887 / number of non-zero frames tested
N_PASSED = 841 / number of frames passed the test
N_T_JUMP = 3 / number of frames detected time jump
N_SATURA = 46 / number of frames telemetry saturated
T_TESTED = 7096.000000 / exposure of non-zero frames tested
T_PASSED = 6728.000000 / exposure of frames passed the test
T_T_JUMP = 1551.999772 / loss of exposure due to time jump
T_SATURA = 368.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 901
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 900/901
[ 2] XISreadExp version 1.6
| OK: 900/900
[ 3] XISreadEvent version 2.7 <------- LOOP: 161395
| OK: 161395/162295 -------> SKIP: 900
[ 4] XIScheckEventNo version 1.2
| OK: 161395/161395
GET: 161395
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
900 : XISreadFrame:ENTRY
900 : XISreadFrame:OK
1 : XISreadExp:BEGIN
900 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
162295 : XISreadEvent:ENTRY
162294 : XISreadEvent:OK
887 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
161395 : XIScheckEventNo:ENTRY
161395 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 242/5000
buffer size : 120000
buffer used : 6432
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 900 162295 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 900 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 900 162295 SINGLE
XIS:FRAMES:S_TIME 8 8 900 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 900 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 900 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 900 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 900 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 900 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 900 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 900 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 900 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 900 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 900 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 900 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 900 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 900 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 900 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 900 887 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 900 0 SINGLE
XIS:FRAMES:BIAS 16 16 900 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 900 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 900 0 SINGLE
XIS:FRAMES:AEDATE 4 4 900 162295 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 900 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 900 161395 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 900 887 SINGLE
XIS:FRAMES:TIME 8 8 900 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 161395 161395 SINGLE
XIS:RAWX 4 4 161395 0 SINGLE
XIS:RAWY 4 4 161395 0 SINGLE
XIS:ACTX 4 4 161395 0 SINGLE
XIS:ACTY 4 4 161395 0 SINGLE
XIS:DETX 4 4 161395 0 SINGLE
XIS:DETY 4 4 161395 0 SINGLE
XIS:FOCX 4 4 161395 0 SINGLE
XIS:FOCY 4 4 161395 0 SINGLE
XIS:X 4 4 161395 0 SINGLE
XIS:Y 4 4 161395 0 SINGLE
XIS:STATUS 4 4 161395 0 SINGLE
XIS:PHAS 100 100 161395 0 SINGLE
XIS:PHANOCTI 4 4 161395 0 SINGLE
XIS:PHA 4 4 161395 0 SINGLE
XIS:PI 4 4 161395 0 SINGLE
XIS:GRADE 4 4 161395 0 SINGLE
XIS:AEDATE 4 4 161395 162294 FAMILY
XIS:EXPTIME 4 4 161395 162294 FAMILY
XIS:EXPTIME_AETIME 8 8 161395 0 SINGLE
XIS:S_TIME 8 8 161395 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 161395 162294 FAMILY
XIS:EVENT_SEQ_NO 4 4 161395 162294 SINGLE
XIS:TIME 8 8 161395 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 161395 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.206 0.003 0.209 6.47
[ 2] XISreadExp 0.004 0.001 0.005 0.15
[ 3] XISreadEvent 2.706 0.103 2.809 86.94
[ 4] XIScheckEventNo 0.099 0.090 0.189 5.85
(others) 0.010 0.009 0.019 0.59
--------------------------------------------------------------------------
TOTAL 3.025 0.206 3.231 100.00
-> xisgtigen successful on ae803005010xi1_1_5x5n069.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi1_2_3x3n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi1_2_3x3n069.fff.infile,f,a,"ae803005010xi1_2_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_3x3n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_2_3x3n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 613821 events )
... 10% ( 61382 / 613821 events )
Event... 100001 (100000)
... 20% ( 122764 / 613821 events )
... 30% ( 184146 / 613821 events )
Event... 200001 (200000)
... 40% ( 245528 / 613821 events )
Event... 300001 (300000)
... 50% ( 306910 / 613821 events )
... 60% ( 368292 / 613821 events )
Event... 400001 (400000)
... 70% ( 429674 / 613821 events )
... 80% ( 491056 / 613821 events )
Event... 500001 (500000)
... 90% ( 552438 / 613821 events )
Event... 600001 (600000)
... 100% ( 613821 / 613821 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267438812.917220 / time start
TSTOP = 267529548.905402 / time stop
TELAPASE = 90735.988182 / elapsed time = TSTOP - TSTART
ONTIME = 43647.994273 / on time = sum of all GTIs
LIVETIME = 43647.994273 / on-source time corrected for CCD exposure
EXPOSURE = 43647.994273 / exposure time
xisEventFitsUtil: rename ./filedr7BCW-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 613823
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 613822/613823
[ 2] XISreadExp version 1.6
| OK: 613822/613822
[ 3] XISreadEvent version 2.7
| OK: 613821/613822 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 613821/613821
[ 5] XISeditEventFits version 2.1
| OK: 613821/613821
GET: 613821
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
613822 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
613822 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
613822 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
613821 : XIStime:ENTRY
613821 : XIStime:OK
1 : XISeditEventFits:BEGIN
613821 : XISeditEventFits:ENTRY
613821 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 613821 613821 SINGLE
XIS:RAWX 4 4 613821 613821 SINGLE
XIS:RAWY 4 4 613821 613821 SINGLE
XIS:ACTX 4 4 613821 613821 SINGLE
XIS:ACTY 4 4 613821 613821 SINGLE
XIS:DETX 4 4 613821 613821 SINGLE
XIS:DETY 4 4 613821 613821 SINGLE
XIS:FOCX 4 4 613821 613821 SINGLE
XIS:FOCY 4 4 613821 613821 SINGLE
XIS:X 4 4 613821 613821 SINGLE
XIS:Y 4 4 613821 613821 SINGLE
XIS:STATUS 4 4 613821 613821 SINGLE
XIS:PHAS 36 36 613821 613821 SINGLE
XIS:PHANOCTI 4 4 613821 613821 SINGLE
XIS:PHA 4 4 613821 613821 SINGLE
XIS:PI 4 4 613821 613821 SINGLE
XIS:GRADE 4 4 613821 613821 SINGLE
XIS:P_OUTER_MOST 4 4 613821 613821 SINGLE
XIS:SUM_OUTER_MOST 4 4 613821 613821 SINGLE
XIS:AEDATE 4 4 1227642 613821 FAMILY
XIS:EXPTIME 4 4 613821 1227642 FAMILY
XIS:EXPTIME_AETIME 8 8 1227642 613821 SINGLE
XIS:S_TIME 8 8 613821 1227642 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 613821 1227642 FAMILY
XIS:EVENT_SEQ_NO 4 4 613821 613821 SINGLE
XIS:TIME 8 8 1227642 613821 SINGLE
XIS:EXP_CENT_AETIME 8 8 1227642 613821 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 613823 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.407 0.325 0.732 3.12
[ 2] XISreadExp 0.134 0.329 0.463 1.97
[ 3] XISreadEvent 10.105 0.636 10.741 45.80
[ 4] XIStime 1.356 0.378 1.734 7.39
[ 5] XISeditEventFits 9.020 0.749 9.769 41.65
(others) 0.010 0.006 0.016 0.07
--------------------------------------------------------------------------
TOTAL 21.032 2.423 23.454 100.00
-> xistime successful on ae803005010xi1_2_3x3n069.sff.infile,f,a,"ae803005010xi1_2_3x3n069.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_3x3n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_2_3x3n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 547.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 472.60 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 807.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 735.10 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 754.06 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 719.48 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 613821 events )
... 10% ( 61382 / 613821 events )
Event... 100001 (100000)
... 20% ( 122764 / 613821 events )
... 30% ( 184146 / 613821 events )
Event... 200001 (200000)
... 40% ( 245528 / 613821 events )
Event... 300001 (300000)
... 50% ( 306910 / 613821 events )
... 60% ( 368292 / 613821 events )
Event... 400001 (400000)
... 70% ( 429674 / 613821 events )
... 80% ( 491056 / 613821 events )
Event... 500001 (500000)
... 90% ( 552438 / 613821 events )
Event... 600001 (600000)
... 100% ( 613821 / 613821 events )
xisEventFitsUtil: rename ./filehqJ2s4-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 613823
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 613822/613823
[ 2] XISreadExp version 1.6
| OK: 613822/613822
[ 3] XISreadEvent version 2.7
| OK: 613821/613822 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 613821/613821
[ 5] XISeditEventFits version 2.1
| OK: 613821/613821
GET: 613821
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
613822 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
613822 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
613822 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
613821 : XIScoord:ENTRY
613821 : XIScoord:OK
1 : XISeditEventFits:BEGIN
613821 : XISeditEventFits:ENTRY
613821 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 613821 1227642 SINGLE
XIS:RAWX 4 4 613821 1227642 SINGLE
XIS:RAWY 4 4 613821 1227642 SINGLE
XIS:ACTX 4 4 1227642 613821 SINGLE
XIS:ACTY 4 4 1227642 613821 SINGLE
XIS:DETX 4 4 1227642 613821 SINGLE
XIS:DETY 4 4 1227642 613821 SINGLE
XIS:FOCX 4 4 1227642 613821 SINGLE
XIS:FOCY 4 4 1227642 613821 SINGLE
XIS:X 4 4 1227642 613821 SINGLE
XIS:Y 4 4 1227642 613821 SINGLE
XIS:STATUS 4 4 613821 613821 SINGLE
XIS:PHAS 36 36 613821 613821 SINGLE
XIS:PHANOCTI 4 4 613821 613821 SINGLE
XIS:PHA 4 4 613821 613821 SINGLE
XIS:PI 4 4 613821 613821 SINGLE
XIS:GRADE 4 4 613821 613821 SINGLE
XIS:P_OUTER_MOST 4 4 613821 613821 SINGLE
XIS:SUM_OUTER_MOST 4 4 613821 613821 SINGLE
XIS:AEDATE 4 4 613821 613821 FAMILY
XIS:EXPTIME 4 4 613821 613821 FAMILY
XIS:EXPTIME_AETIME 8 8 613821 613821 SINGLE
XIS:S_TIME 8 8 613821 613821 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 613821 613821 FAMILY
XIS:EVENT_SEQ_NO 4 4 613821 613821 SINGLE
XIS:TIME 8 8 613821 1227642 SINGLE
XIS:EXP_CENT_AETIME 8 8 613821 613821 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 613823 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.452 0.354 0.806 3.01
[ 2] XISreadExp 0.110 0.355 0.465 1.74
[ 3] XISreadEvent 10.165 0.481 10.646 39.78
[ 4] XIScoord 4.212 0.413 4.625 17.28
[ 5] XISeditEventFits 9.371 0.828 10.198 38.11
(others) 0.016 0.007 0.023 0.09
--------------------------------------------------------------------------
TOTAL 24.326 2.438 26.764 100.00
-> xiscoord successful on ae803005010xi1_2_3x3n069.sff.infile,f,a,"ae803005010xi1_2_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_3x3n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_2_3x3n069.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 613821 events )
... 10% ( 61382 / 613821 events )
Event... 100001 (100000)
... 20% ( 122764 / 613821 events )
... 30% ( 184146 / 613821 events )
Event... 200001 (200000)
... 40% ( 245528 / 613821 events )
Event... 300001 (300000)
... 50% ( 306910 / 613821 events )
... 60% ( 368292 / 613821 events )
Event... 400001 (400000)
... 70% ( 429674 / 613821 events )
... 80% ( 491056 / 613821 events )
Event... 500001 (500000)
... 90% ( 552438 / 613821 events )
Event... 600001 (600000)
... 100% ( 613821 / 613821 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 9195 1.50
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 20025 3.26
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 2872 0.47
B8 256 1PIX_FROM_SEGBOUNDARY 3017 0.49
B9 512 SCI_3rd_TRAILING_ROW 11420 1.86
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 22631 3.69
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 7345 1.20
B16 65536 CALMASK 53560 8.73
B17 131072 SEGBOUNDARY 5622 0.92
B18 262144 SCI_2nd_TRAILING_ROW 10350 1.69
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 62926 10.25
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 11384 1.85
B29 536870912 SCI_TRAILING_ROW 83407 13.59
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 41 0.01
### 0 CLEAN_ZERO 372691 60.72
--------------------------------------------------------------
+++ 4294967295 SUM 676486 110.21
::: 524287 SAFE(B0-18) 471365 76.79
>>> 4294967295 TOTAL 613821 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileRR5kI2-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 613823
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 613822/613823
[ 2] XISreadExp version 1.6
| OK: 613822/613822
[ 3] XISreadEvent version 2.7
| OK: 613821/613822 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 613821/613821
[ 5] XISeditEventFits version 2.1
| OK: 613821/613821
GET: 613821
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
613822 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
613822 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
613822 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
613821 : XISputPixelQuality:ENTRY
613821 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
613821 : XISeditEventFits:ENTRY
613821 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 613821 613821 SINGLE
XIS:RAWX 4 4 613821 613821 SINGLE
XIS:RAWY 4 4 613821 1227642 SINGLE
XIS:ACTX 4 4 613821 1227642 SINGLE
XIS:ACTY 4 4 613821 1227642 SINGLE
XIS:DETX 4 4 613821 613821 SINGLE
XIS:DETY 4 4 613821 613821 SINGLE
XIS:FOCX 4 4 613821 613821 SINGLE
XIS:FOCY 4 4 613821 613821 SINGLE
XIS:X 4 4 613821 613821 SINGLE
XIS:Y 4 4 613821 613821 SINGLE
XIS:STATUS 4 4 1227642 613821 SINGLE
XIS:PHAS 36 36 613821 613821 SINGLE
XIS:PHANOCTI 4 4 613821 613821 SINGLE
XIS:PHA 4 4 613821 613821 SINGLE
XIS:PI 4 4 613821 613821 SINGLE
XIS:GRADE 4 4 613821 613821 SINGLE
XIS:P_OUTER_MOST 4 4 613821 613821 SINGLE
XIS:SUM_OUTER_MOST 4 4 613821 613821 SINGLE
XIS:AEDATE 4 4 613821 613821 FAMILY
XIS:EXPTIME 4 4 613821 613821 FAMILY
XIS:EXPTIME_AETIME 8 8 613821 613821 SINGLE
XIS:S_TIME 8 8 613821 613821 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 613821 613821 FAMILY
XIS:EVENT_SEQ_NO 4 4 613821 613821 SINGLE
XIS:TIME 8 8 613821 1227642 SINGLE
XIS:EXP_CENT_AETIME 8 8 613821 613821 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 613823 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.369 0.312 0.681 3.03
[ 2] XISreadExp 0.165 0.349 0.514 2.29
[ 3] XISreadEvent 9.663 0.419 10.081 44.89
[ 4] XISputPixelQuality 0.733 0.317 1.050 4.67
[ 5] XISeditEventFits 8.963 1.153 10.115 45.04
(others) 0.008 0.009 0.017 0.08
--------------------------------------------------------------------------
TOTAL 19.900 2.559 22.459 100.00
-> xisputpixelquality successful on ae803005010xi1_2_3x3n069.sff.infile,f,a,"ae803005010xi1_2_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi1_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_3x3n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_2_3x3n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi1_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi1_0.hk, S1_VDCHK18_CAL, nrows=5662
nvalid=5323 nrej=339 time=267336985.4 - 267532653.4 [s]
AE-temp: average=19.759 sigma=1.599 min=16.410 max=22.523 [degC]
Event... 1 (0)
... 0% ( 0 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 61382 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 122764 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 184146 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 245528 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 306910 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 368292 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 400001 (400000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 429674 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 491056 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 500001 (500000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 552438 / 613821 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 600001 (600000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 613821 / 613821 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileIxs4LZ-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 613823
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 613822/613823
[ 2] XISreadExp version 1.6
| OK: 613822/613822
[ 3] XISreadEvent version 2.7
| OK: 613821/613822 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 613821/613821
[ 5] XIStrailCorrection version 3.1
| OK: 613821/613821
[ 6] XISctiCorrection version 3.4
| OK: 613821/613821
[ 7] XISgrade version 3.3
| OK: 613821/613821
[ 8] XISpha2pi version 3.2
| OK: 613821/613821
[ 9] XISeditEventFits version 2.1
| OK: 613821/613821
GET: 613821
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
613822 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
613822 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
613822 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
613821 : XISpreparePHASCORR:ENTRY
613821 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
613821 : XIStrailCorrection:ENTRY
613821 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
613821 : XISctiCorrection:ENTRY
613821 : XISctiCorrection:OK
1 : XISgrade:BEGIN
613821 : XISgrade:ENTRY
613821 : XISgrade:OK
1 : XISpha2pi:BEGIN
613821 : XISpha2pi:ENTRY
613821 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
613821 : XISeditEventFits:ENTRY
613821 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2455290 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 613821 3069105 SINGLE
XIS:RAWX 4 4 613821 1841463 SINGLE
XIS:RAWY 4 4 613821 1227642 SINGLE
XIS:ACTX 4 4 613821 613821 SINGLE
XIS:ACTY 4 4 613821 1841463 SINGLE
XIS:DETX 4 4 613821 613821 SINGLE
XIS:DETY 4 4 613821 613821 SINGLE
XIS:FOCX 4 4 613821 613821 SINGLE
XIS:FOCY 4 4 613821 613821 SINGLE
XIS:X 4 4 613821 613821 SINGLE
XIS:Y 4 4 613821 613821 SINGLE
XIS:STATUS 4 4 613821 613821 SINGLE
XIS:PHAS 36 36 613821 1227642 SINGLE
XIS:PHANOCTI 4 4 1227642 613821 SINGLE
XIS:PHA 4 4 1227642 613821 SINGLE
XIS:PI 4 4 1227642 613821 SINGLE
XIS:GRADE 4 4 1227642 613821 SINGLE
XIS:P_OUTER_MOST 4 4 613821 1227642 SINGLE
XIS:SUM_OUTER_MOST 4 4 613821 1227642 SINGLE
XIS:AEDATE 4 4 613821 613821 FAMILY
XIS:EXPTIME 4 4 613821 613821 FAMILY
XIS:EXPTIME_AETIME 8 8 613821 613821 SINGLE
XIS:S_TIME 8 8 613821 613821 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 613821 613821 FAMILY
XIS:EVENT_SEQ_NO 4 4 613821 613821 SINGLE
XIS:TIME 8 8 613821 3069105 SINGLE
XIS:EXP_CENT_AETIME 8 8 613821 613821 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 613823 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 1227642 613821 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 613821 613821 SINGLE
XIS:PHASCORR 72 72 1841463 1841463 SINGLE
XIS:PHA:DOUBLE 8 8 613821 613821 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.569 0.307 0.876 1.78
[ 2] XISreadExp 0.180 0.289 0.469 0.95
[ 3] XISreadEvent 10.404 0.481 10.885 22.10
[ 4] XISpreparePHASCORR 0.464 0.309 0.773 1.57
[ 5] XIStrailCorrection 1.298 0.297 1.595 3.24
[ 6] XISctiCorrection 15.624 5.275 20.899 42.42
[ 7] XISgrade 1.850 0.297 2.147 4.36
[ 8] XISpha2pi 1.307 0.294 1.601 3.25
[ 9] XISeditEventFits 9.234 0.758 9.991 20.28
(others) 0.019 0.007 0.026 0.05
--------------------------------------------------------------------------
TOTAL 40.948 8.314 49.262 100.00
-> xispi successful on ae803005010xi1_2_3x3n069.sff.infile,f,a,"ae803005010xi1_2_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi1_2_3x3n069.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_3x3n069.sff
OUTFILE ae803005010xi1_2_3x3n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi1_2_3x3n069.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 613821 events )
frame time jump, t=267439756.917 - 267441908.917 by 2152.000 s
frame time jump, t=267446268.916 - 267447660.916 by 1392.000 s
... 10% ( 61382 / 613821 events )
saturated frame, t=267450356.916 - 267450364.916 170 (407/577) seg=1111
frame time jump, t=267451276.916 - 267453404.915 by 2128.000 s
... 20% ( 122764 / 613821 events )
saturated frame, t=267457012.915 - 267457020.915 20 (410/430) seg=1111
frame time jump, t=267457028.915 - 267459172.915 by 2144.000 s
saturated frame, t=267462764.914 - 267462772.914 12 (165/177) seg=1111
frame time jump, t=267462772.914 - 267464916.914 by 2144.000 s
... 30% ( 184146 / 613821 events )
frame time jump, t=267468532.913 - 267470676.913 by 2144.000 s
saturated frame, t=267471988.913 - 267471996.913 16 (386/402) seg=1111
... 40% ( 245528 / 613821 events )
frame time jump, t=267474292.913 - 267476420.912 by 2128.000 s
saturated frame, t=267476420.912 - 267476428.912 37 (90/127) seg=1111
saturated frame, t=267478508.912 - 267478516.912 11 (368/379) seg=1111
... 50% ( 306910 / 613821 events )
frame time jump, t=267480036.912 - 267482180.912 by 2144.000 s
frame time jump, t=267484460.911 - 267485100.911 by 640.000 s
saturated frame, t=267485100.911 - 267485108.911 41598 (287/41885) seg=1111
saturated frame, t=267485108.911 - 267485116.911 35972 (286/36258) seg=1111
frame time jump, t=267485116.911 - 267485164.911 by 48.000 s
saturated frame, t=267485164.911 - 267485172.911 27178 (286/27464) seg=1111
saturated frame, t=267485172.911 - 267485180.911 820 (404/1224) seg=1111
frame time jump, t=267485236.911 - 267485500.911 by 264.000 s
frame time jump, t=267485780.911 - 267487924.911 by 2144.000 s
... 60% ( 368292 / 613821 events )
saturated frame, t=267489100.911 - 267489108.911 28 (386/414) seg=1111
frame time jump, t=267490068.911 - 267491252.910 by 1184.000 s
saturated frame, t=267491252.910 - 267491260.910 36480 (286/36766) seg=1111
frame time jump, t=267491260.910 - 267491316.910 by 56.000 s
saturated frame, t=267491316.910 - 267491324.910 27235 (286/27521) seg=1111
saturated frame, t=267491324.910 - 267491332.910 690 (411/1101) seg=1111
saturated frame, t=267491332.910 - 267491340.910 179 (406/585) seg=1111
saturated frame, t=267491340.910 - 267491348.910 144 (404/548) seg=1111
saturated frame, t=267491348.910 - 267491356.910 173 (404/577) seg=1111
saturated frame, t=267491356.910 - 267491364.910 142 (407/549) seg=1111
saturated frame, t=267491364.910 - 267491372.910 142 (401/543) seg=1111
saturated frame, t=267491372.910 - 267491380.910 79 (405/484) seg=1111
saturated frame, t=267491380.910 - 267491388.910 45 (399/444) seg=1111
frame time jump, t=267491388.910 - 267493684.910 by 2296.000 s
frame time jump, t=267495980.910 - 267497356.910 by 1376.000 s
saturated frame, t=267497356.910 - 267497364.910 40078 (341/40419) seg=1111
saturated frame, t=267497364.910 - 267497372.910 35950 (286/36236) seg=1111
frame time jump, t=267497372.910 - 267497420.910 by 48.000 s
saturated frame, t=267497420.910 - 267497428.910 27261 (286/27547) seg=1111
saturated frame, t=267497428.910 - 267497436.910 1118 (411/1529) seg=1111
saturated frame, t=267497436.910 - 267497444.910 467 (406/873) seg=1111
saturated frame, t=267497444.910 - 267497452.910 370 (410/780) seg=1111
saturated frame, t=267497452.910 - 267497460.910 304 (409/713) seg=1111
saturated frame, t=267497460.910 - 267497468.910 336 (408/744) seg=1111
saturated frame, t=267497468.910 - 267497476.910 306 (407/713) seg=1111
... 70% ( 429674 / 613821 events )
saturated frame, t=267497476.910 - 267497484.910 249 (409/658) seg=1111
saturated frame, t=267497484.910 - 267497492.910 228 (408/636) seg=1111
frame time jump, t=267497492.910 - 267497756.910 by 264.000 s
frame time jump, t=267497988.910 - 267498844.909 by 856.000 s
saturated frame, t=267498844.909 - 267498852.909 689 (95/784) seg=1111
saturated frame, t=267498940.909 - 267498948.909 34 (420/454) seg=1111
saturated frame, t=267499020.909 - 267499028.909 385 (424/809) seg=1111
saturated frame, t=267499036.909 - 267499044.909 515 (423/938) seg=1111
saturated frame, t=267499044.909 - 267499052.909 178 (421/599) seg=1111
saturated frame, t=267499052.909 - 267499060.909 1710 (424/2134) seg=1111
saturated frame, t=267499060.909 - 267499068.909 458 (423/881) seg=1111
saturated frame, t=267499068.909 - 267499076.909 1275 (424/1699) seg=1111
saturated frame, t=267499076.909 - 267499084.909 13094 (424/13518) seg=1111
saturated frame, t=267499084.909 - 267499092.909 3740 (424/4164) seg=1111
saturated frame, t=267499092.909 - 267499100.909 2247 (424/2671) seg=1111
saturated frame, t=267499100.909 - 267499108.909 2839 (424/3263) seg=1111
saturated frame, t=267499108.909 - 267499116.909 274 (1555/1829) seg=1111
frame time jump, t=267499124.909 - 267518220.907 by 19095.997 s
frame time jump, t=267520348.907 - 267521580.906 by 1232.000 s
saturated frame, t=267521580.906 - 267521588.906 39020 (756/39776) seg=1111
saturated frame, t=267521588.906 - 267521596.906 35638 (743/36381) seg=1111
frame time jump, t=267521596.906 - 267521652.906 by 56.000 s
saturated frame, t=267521652.906 - 267521660.906 27033 (743/27776) seg=1111
saturated frame, t=267521660.906 - 267521668.906 33713 (1114/34827) seg=1111
saturated frame, t=267521668.906 - 267521676.906 35137 (1115/36252) seg=1111
saturated frame, t=267521676.906 - 267521684.906 33965 (1115/35080) seg=1111
saturated frame, t=267521684.906 - 267521692.906 33581 (1115/34696) seg=1111
saturated frame, t=267521692.906 - 267521700.906 33804 (1114/34918) seg=1111
saturated frame, t=267521700.906 - 267521708.906 34607 (1114/35721) seg=1111
saturated frame, t=267521708.906 - 267521716.906 36545 (1113/37658) seg=1111
saturated frame, t=267521716.906 - 267521724.906 41960 (1112/43072) seg=1111
saturated frame, t=267521724.906 - 267521732.906 40697 (1113/41810) seg=1111
saturated frame, t=267521732.906 - 267521740.906 38011 (1115/39126) seg=1111
saturated frame, t=267521740.906 - 267521748.906 44583 (1114/45697) seg=1111
saturated frame, t=267521748.906 - 267521756.906 51157 (1112/52269) seg=1111
saturated frame, t=267521756.906 - 267521764.906 19266 (1114/20380) seg=1111
saturated frame, t=267521764.906 - 267521772.906 11701 (1109/12810) seg=1111
... 80% ( 491056 / 613821 events )
saturated frame, t=267521924.906 - 267521932.906 1478 (1111/2589) seg=1111
saturated frame, t=267521988.906 - 267521996.906 67 (1107/1174) seg=1111
saturated frame, t=267521996.906 - 267522004.906 1096 (1113/2209) seg=1111
saturated frame, t=267522012.906 - 267522020.906 281 (1109/1390) seg=1111
saturated frame, t=267522044.906 - 267522052.906 1003 (1115/2118) seg=1111
saturated frame, t=267522068.906 - 267522076.906 4069 (1113/5182) seg=1111
... 90% ( 552438 / 613821 events )
frame time jump, t=267526452.906 - 267527556.906 by 1104.000 s
saturated frame, t=267527556.906 - 267527564.906 38569 (833/39402) seg=1111
saturated frame, t=267527564.906 - 267527572.906 35819 (743/36562) seg=1111
frame time jump, t=267527572.906 - 267527620.906 by 48.000 s
saturated frame, t=267527620.906 - 267527628.906 27012 (743/27755) seg=1111
saturated frame, t=267527628.906 - 267527636.906 50640 (1113/51753) seg=1111
saturated frame, t=267527636.906 - 267527644.906 48137 (1115/49252) seg=1111
saturated frame, t=267527644.906 - 267527652.906 42834 (1110/43944) seg=1111
saturated frame, t=267527652.906 - 267527660.906 42393 (1114/43507) seg=1111
saturated frame, t=267527660.906 - 267527668.906 45436 (1114/46550) seg=1111
saturated frame, t=267527668.906 - 267527676.906 51274 (1114/52388) seg=1111
saturated frame, t=267527676.906 - 267527684.906 50275 (1114/51389) seg=1111
saturated frame, t=267527684.906 - 267527692.906 44769 (1113/45882) seg=1111
saturated frame, t=267527692.906 - 267527700.906 47759 (1113/48872) seg=1111
saturated frame, t=267527700.906 - 267527708.906 50545 (1113/51658) seg=1111
saturated frame, t=267527708.906 - 267527716.906 48237 (1115/49352) seg=1111
saturated frame, t=267527716.906 - 267527724.906 45987 (1113/47100) seg=1111
saturated frame, t=267527724.906 - 267527732.906 28590 (1114/29704) seg=1111
saturated frame, t=267527732.906 - 267527740.906 14756 (1108/15864) seg=1111
saturated frame, t=267527740.906 - 267527748.906 2604 (1109/3713) seg=1111
saturated frame, t=267527796.906 - 267527804.906 253 (1110/1363) seg=1111
... 100% ( 613821 / 613821 events )
XIScheckEventNo: GTI file 'ae803005010xi1_2_3x3n069.gti' created
N_FRAMES = 5488 / number of frames in the input event file
N_TESTED = 5456 / number of non-zero frames tested
N_PASSED = 5369 / number of frames passed the test
N_T_JUMP = 24 / number of frames detected time jump
N_SATURA = 87 / number of frames telemetry saturated
T_TESTED = 43648.000000 / exposure of non-zero frames tested
T_PASSED = 42952.000000 / exposure of frames passed the test
T_T_JUMP = 47087.993909 / loss of exposure due to time jump
T_SATURA = 696.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5489
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5488/5489
[ 2] XISreadExp version 1.6
| OK: 5488/5488
[ 3] XISreadEvent version 2.7 <------- LOOP: 613821
| OK: 613821/619309 -------> SKIP: 5488
[ 4] XIScheckEventNo version 1.2
| OK: 613821/613821
GET: 613821
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5488 : XISreadFrame:ENTRY
5488 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5488 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
619309 : XISreadEvent:ENTRY
619308 : XISreadEvent:OK
5456 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
613821 : XIScheckEventNo:ENTRY
613821 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 5488 619309 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 5488 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 5488 619309 SINGLE
XIS:FRAMES:S_TIME 8 8 5488 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 5488 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 5488 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 5488 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 5488 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 5488 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 5488 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 5488 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 5488 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 5488 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 5488 5456 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 5488 0 SINGLE
XIS:FRAMES:BIAS 16 16 5488 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 5488 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 5488 0 SINGLE
XIS:FRAMES:AEDATE 4 4 5488 619309 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 5488 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 5488 613821 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 5488 5456 SINGLE
XIS:FRAMES:TIME 8 8 5488 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 613821 613821 SINGLE
XIS:RAWX 4 4 613821 0 SINGLE
XIS:RAWY 4 4 613821 0 SINGLE
XIS:ACTX 4 4 613821 0 SINGLE
XIS:ACTY 4 4 613821 0 SINGLE
XIS:DETX 4 4 613821 0 SINGLE
XIS:DETY 4 4 613821 0 SINGLE
XIS:FOCX 4 4 613821 0 SINGLE
XIS:FOCY 4 4 613821 0 SINGLE
XIS:X 4 4 613821 0 SINGLE
XIS:Y 4 4 613821 0 SINGLE
XIS:STATUS 4 4 613821 0 SINGLE
XIS:PHAS 36 36 613821 0 SINGLE
XIS:PHANOCTI 4 4 613821 0 SINGLE
XIS:PHA 4 4 613821 0 SINGLE
XIS:PI 4 4 613821 0 SINGLE
XIS:GRADE 4 4 613821 0 SINGLE
XIS:P_OUTER_MOST 4 4 613821 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 613821 0 SINGLE
XIS:AEDATE 4 4 613821 619308 FAMILY
XIS:EXPTIME 4 4 613821 619308 FAMILY
XIS:EXPTIME_AETIME 8 8 613821 0 SINGLE
XIS:S_TIME 8 8 613821 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 613821 619308 FAMILY
XIS:EVENT_SEQ_NO 4 4 613821 619308 SINGLE
XIS:TIME 8 8 613821 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 613821 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 1.281 0.013 1.294 9.16
[ 2] XISreadExp 0.007 0.002 0.009 0.06
[ 3] XISreadEvent 11.818 0.360 12.178 86.19
[ 4] XIScheckEventNo 0.302 0.328 0.630 4.46
(others) 0.013 0.006 0.019 0.13
--------------------------------------------------------------------------
TOTAL 13.421 0.709 14.130 100.00
-> xisgtigen successful on ae803005010xi1_2_3x3n069.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi1_2_5x5n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi1_2_5x5n069.fff.infile,f,a,"ae803005010xi1_2_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_5x5n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_2_5x5n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 306187 events )
... 10% ( 30618 / 306187 events )
... 20% ( 61236 / 306187 events )
... 30% ( 91854 / 306187 events )
Event... 100001 (100000)
... 40% ( 122472 / 306187 events )
... 50% ( 153090 / 306187 events )
... 60% ( 183708 / 306187 events )
Event... 200001 (200000)
... 70% ( 214326 / 306187 events )
... 80% ( 244944 / 306187 events )
... 90% ( 275562 / 306187 events )
Event... 300001 (300000)
... 100% ( 306187 / 306187 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267499124.909376 / time start
TSTOP = 267518220.906867 / time stop
TELAPASE = 19095.997491 / elapsed time = TSTOP - TSTART
ONTIME = 14207.998243 / on time = sum of all GTIs
LIVETIME = 14207.998243 / on-source time corrected for CCD exposure
EXPOSURE = 14207.998243 / exposure time
xisEventFitsUtil: rename ./fileNhMRhy-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 306189
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 306188/306189
[ 2] XISreadExp version 1.6
| OK: 306188/306188
[ 3] XISreadEvent version 2.7
| OK: 306187/306188 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 306187/306187
[ 5] XISeditEventFits version 2.1
| OK: 306187/306187
GET: 306187
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
306188 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
306188 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
306188 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
306187 : XIStime:ENTRY
306187 : XIStime:OK
1 : XISeditEventFits:BEGIN
306187 : XISeditEventFits:ENTRY
306187 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 306187 306187 SINGLE
XIS:RAWX 4 4 306187 306187 SINGLE
XIS:RAWY 4 4 306187 306187 SINGLE
XIS:ACTX 4 4 306187 306187 SINGLE
XIS:ACTY 4 4 306187 306187 SINGLE
XIS:DETX 4 4 306187 306187 SINGLE
XIS:DETY 4 4 306187 306187 SINGLE
XIS:FOCX 4 4 306187 306187 SINGLE
XIS:FOCY 4 4 306187 306187 SINGLE
XIS:X 4 4 306187 306187 SINGLE
XIS:Y 4 4 306187 306187 SINGLE
XIS:STATUS 4 4 306187 306187 SINGLE
XIS:PHAS 100 100 306187 306187 SINGLE
XIS:PHANOCTI 4 4 306187 306187 SINGLE
XIS:PHA 4 4 306187 306187 SINGLE
XIS:PI 4 4 306187 306187 SINGLE
XIS:GRADE 4 4 306187 306187 SINGLE
XIS:AEDATE 4 4 612374 306187 FAMILY
XIS:EXPTIME 4 4 306187 612374 FAMILY
XIS:EXPTIME_AETIME 8 8 612374 306187 SINGLE
XIS:S_TIME 8 8 306187 612374 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 306187 612374 FAMILY
XIS:EVENT_SEQ_NO 4 4 306187 306187 SINGLE
XIS:TIME 8 8 612374 306187 SINGLE
XIS:EXP_CENT_AETIME 8 8 612374 306187 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 306189 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.198 0.177 0.375 3.36
[ 2] XISreadExp 0.109 0.148 0.257 2.30
[ 3] XISreadEvent 4.605 0.366 4.971 44.50
[ 4] XIStime 0.713 0.175 0.888 7.95
[ 5] XISeditEventFits 4.262 0.403 4.665 41.76
(others) 0.008 0.007 0.015 0.13
--------------------------------------------------------------------------
TOTAL 9.895 1.276 11.171 100.00
-> xistime successful on ae803005010xi1_2_5x5n069.sff.infile,f,a,"ae803005010xi1_2_5x5n069.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_5x5n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_2_5x5n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 0
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 547.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 472.60 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 807.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 735.10 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 754.06 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 719.48 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 306187 events )
... 10% ( 30618 / 306187 events )
... 20% ( 61236 / 306187 events )
... 30% ( 91854 / 306187 events )
Event... 100001 (100000)
... 40% ( 122472 / 306187 events )
... 50% ( 153090 / 306187 events )
... 60% ( 183708 / 306187 events )
Event... 200001 (200000)
... 70% ( 214326 / 306187 events )
... 80% ( 244944 / 306187 events )
... 90% ( 275562 / 306187 events )
Event... 300001 (300000)
... 100% ( 306187 / 306187 events )
xisEventFitsUtil: rename ./filewk7D13-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 306189
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 306188/306189
[ 2] XISreadExp version 1.6
| OK: 306188/306188
[ 3] XISreadEvent version 2.7
| OK: 306187/306188 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 306187/306187
[ 5] XISeditEventFits version 2.1
| OK: 306187/306187
GET: 306187
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
306188 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
306188 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
306188 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
306187 : XIScoord:ENTRY
306187 : XIScoord:OK
1 : XISeditEventFits:BEGIN
306187 : XISeditEventFits:ENTRY
306187 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 306187 612374 SINGLE
XIS:RAWX 4 4 306187 612374 SINGLE
XIS:RAWY 4 4 306187 612374 SINGLE
XIS:ACTX 4 4 612374 306187 SINGLE
XIS:ACTY 4 4 612374 306187 SINGLE
XIS:DETX 4 4 612374 306187 SINGLE
XIS:DETY 4 4 612374 306187 SINGLE
XIS:FOCX 4 4 612374 306187 SINGLE
XIS:FOCY 4 4 612374 306187 SINGLE
XIS:X 4 4 612374 306187 SINGLE
XIS:Y 4 4 612374 306187 SINGLE
XIS:STATUS 4 4 306187 306187 SINGLE
XIS:PHAS 100 100 306187 306187 SINGLE
XIS:PHANOCTI 4 4 306187 306187 SINGLE
XIS:PHA 4 4 306187 306187 SINGLE
XIS:PI 4 4 306187 306187 SINGLE
XIS:GRADE 4 4 306187 306187 SINGLE
XIS:AEDATE 4 4 306187 306187 FAMILY
XIS:EXPTIME 4 4 306187 306187 FAMILY
XIS:EXPTIME_AETIME 8 8 306187 306187 SINGLE
XIS:S_TIME 8 8 306187 306187 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 306187 306187 FAMILY
XIS:EVENT_SEQ_NO 4 4 306187 306187 SINGLE
XIS:TIME 8 8 306187 612374 SINGLE
XIS:EXP_CENT_AETIME 8 8 306187 306187 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 306189 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.226 0.147 0.373 2.86
[ 2] XISreadExp 0.082 0.146 0.228 1.75
[ 3] XISreadEvent 4.774 0.283 5.057 38.75
[ 4] XIScoord 2.166 0.189 2.355 18.04
[ 5] XISeditEventFits 4.548 0.466 5.014 38.42
(others) 0.015 0.008 0.023 0.18
--------------------------------------------------------------------------
TOTAL 11.811 1.239 13.050 100.00
-> xiscoord successful on ae803005010xi1_2_5x5n069.sff.infile,f,a,"ae803005010xi1_2_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_5x5n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_2_5x5n069.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 306187 events )
... 10% ( 30618 / 306187 events )
... 20% ( 61236 / 306187 events )
... 30% ( 91854 / 306187 events )
Event... 100001 (100000)
... 40% ( 122472 / 306187 events )
... 50% ( 153090 / 306187 events )
... 60% ( 183708 / 306187 events )
Event... 200001 (200000)
... 70% ( 214326 / 306187 events )
... 80% ( 244944 / 306187 events )
... 90% ( 275562 / 306187 events )
Event... 300001 (300000)
... 100% ( 306187 / 306187 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 4206 1.37
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 8485 2.77
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 957 0.31
B8 256 1PIX_FROM_SEGBOUNDARY 1495 0.49
B9 512 SCI_3rd_TRAILING_ROW 4199 1.37
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 11882 3.88
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 3079 1.01
B16 65536 CALMASK 20766 6.78
B17 131072 SEGBOUNDARY 3411 1.11
B18 262144 SCI_2nd_TRAILING_ROW 4606 1.50
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 38457 12.56
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 4200 1.37
B29 536870912 SCI_TRAILING_ROW 88417 28.88
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 82 0.03
### 0 CLEAN_ZERO 154592 50.49
--------------------------------------------------------------
+++ 4294967295 SUM 348834 113.93
::: 524287 SAFE(B0-18) 190330 62.16
>>> 4294967295 TOTAL 306187 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./file1irsVB-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 306189
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 306188/306189
[ 2] XISreadExp version 1.6
| OK: 306188/306188
[ 3] XISreadEvent version 2.7
| OK: 306187/306188 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 306187/306187
[ 5] XISeditEventFits version 2.1
| OK: 306187/306187
GET: 306187
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
306188 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
306188 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
306188 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
306187 : XISputPixelQuality:ENTRY
306187 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
306187 : XISeditEventFits:ENTRY
306187 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 306187 306187 SINGLE
XIS:RAWX 4 4 306187 306187 SINGLE
XIS:RAWY 4 4 306187 612374 SINGLE
XIS:ACTX 4 4 306187 612374 SINGLE
XIS:ACTY 4 4 306187 612374 SINGLE
XIS:DETX 4 4 306187 306187 SINGLE
XIS:DETY 4 4 306187 306187 SINGLE
XIS:FOCX 4 4 306187 306187 SINGLE
XIS:FOCY 4 4 306187 306187 SINGLE
XIS:X 4 4 306187 306187 SINGLE
XIS:Y 4 4 306187 306187 SINGLE
XIS:STATUS 4 4 612374 306187 SINGLE
XIS:PHAS 100 100 306187 306187 SINGLE
XIS:PHANOCTI 4 4 306187 306187 SINGLE
XIS:PHA 4 4 306187 306187 SINGLE
XIS:PI 4 4 306187 306187 SINGLE
XIS:GRADE 4 4 306187 306187 SINGLE
XIS:AEDATE 4 4 306187 306187 FAMILY
XIS:EXPTIME 4 4 306187 306187 FAMILY
XIS:EXPTIME_AETIME 8 8 306187 306187 SINGLE
XIS:S_TIME 8 8 306187 306187 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 306187 306187 FAMILY
XIS:EVENT_SEQ_NO 4 4 306187 306187 SINGLE
XIS:TIME 8 8 306187 612374 SINGLE
XIS:EXP_CENT_AETIME 8 8 306187 306187 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 306189 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.218 0.155 0.373 3.42
[ 2] XISreadExp 0.086 0.143 0.229 2.10
[ 3] XISreadEvent 4.577 0.180 4.757 43.57
[ 4] XISputPixelQuality 0.427 0.161 0.588 5.38
[ 5] XISeditEventFits 4.391 0.563 4.954 45.38
(others) 0.007 0.010 0.017 0.16
--------------------------------------------------------------------------
TOTAL 9.707 1.212 10.918 100.00
-> xisputpixelquality successful on ae803005010xi1_2_5x5n069.sff.infile,f,a,"ae803005010xi1_2_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi1_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_5x5n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_2_5x5n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi1_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi1_0.hk, S1_VDCHK18_CAL, nrows=5662
nvalid=5323 nrej=339 time=267336985.4 - 267532653.4 [s]
AE-temp: average=19.759 sigma=1.599 min=16.410 max=22.523 [degC]
Event... 1 (0)
... 0% ( 0 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 30618 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 61236 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 91854 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 122472 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 153090 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 183708 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 214326 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 244944 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 275562 / 306187 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 306187 / 306187 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filecxlY3N-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 306189
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 306188/306189
[ 2] XISreadExp version 1.6
| OK: 306188/306188
[ 3] XISreadEvent version 2.7
| OK: 306187/306188 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 306187/306187
[ 5] XIStrailCorrection version 3.1
| OK: 306187/306187
[ 6] XISctiCorrection version 3.4
| OK: 306187/306187
[ 7] XISgrade version 3.3
| OK: 306187/306187
[ 8] XISpha2pi version 3.2
| OK: 306187/306187
[ 9] XISeditEventFits version 2.1
| OK: 306187/306187
GET: 306187
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
306188 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
306188 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
306188 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
306187 : XISpreparePHASCORR:ENTRY
306187 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
306187 : XIStrailCorrection:ENTRY
306187 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
306187 : XISctiCorrection:ENTRY
306187 : XISctiCorrection:OK
1 : XISgrade:BEGIN
306187 : XISgrade:ENTRY
306187 : XISgrade:OK
1 : XISpha2pi:BEGIN
306187 : XISpha2pi:ENTRY
306187 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
306187 : XISeditEventFits:ENTRY
306187 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 189/5000
buffer size : 120000
buffer used : 4768
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 1224754 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 306187 1530935 SINGLE
XIS:RAWX 4 4 306187 918561 SINGLE
XIS:RAWY 4 4 306187 612374 SINGLE
XIS:ACTX 4 4 306187 306187 SINGLE
XIS:ACTY 4 4 306187 918561 SINGLE
XIS:DETX 4 4 306187 306187 SINGLE
XIS:DETY 4 4 306187 306187 SINGLE
XIS:FOCX 4 4 306187 306187 SINGLE
XIS:FOCY 4 4 306187 306187 SINGLE
XIS:X 4 4 306187 306187 SINGLE
XIS:Y 4 4 306187 306187 SINGLE
XIS:STATUS 4 4 306187 306187 SINGLE
XIS:PHAS 100 100 306187 612374 SINGLE
XIS:PHANOCTI 4 4 612374 306187 SINGLE
XIS:PHA 4 4 612374 306187 SINGLE
XIS:PI 4 4 612374 306187 SINGLE
XIS:GRADE 4 4 612374 306187 SINGLE
XIS:AEDATE 4 4 306187 306187 FAMILY
XIS:EXPTIME 4 4 306187 306187 FAMILY
XIS:EXPTIME_AETIME 8 8 306187 306187 SINGLE
XIS:S_TIME 8 8 306187 306187 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 306187 306187 FAMILY
XIS:EVENT_SEQ_NO 4 4 306187 306187 SINGLE
XIS:TIME 8 8 306187 1530935 SINGLE
XIS:EXP_CENT_AETIME 8 8 306187 306187 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 306189 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 612374 306187 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 306187 306187 SINGLE
XIS:PHASCORR 200 200 918561 918561 SINGLE
XIS:PHA:DOUBLE 8 8 306187 306187 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.243 0.147 0.390 1.45
[ 2] XISreadExp 0.086 0.175 0.261 0.97
[ 3] XISreadEvent 4.886 0.208 5.094 18.96
[ 4] XISpreparePHASCORR 0.302 0.143 0.445 1.66
[ 5] XIStrailCorrection 0.607 0.128 0.735 2.74
[ 6] XISctiCorrection 11.219 1.813 13.032 48.51
[ 7] XISgrade 1.009 0.156 1.165 4.34
[ 8] XISpha2pi 0.682 0.166 0.848 3.16
[ 9] XISeditEventFits 4.450 0.417 4.867 18.12
(others) 0.020 0.008 0.028 0.10
--------------------------------------------------------------------------
TOTAL 23.504 3.360 26.865 100.00
-> xispi successful on ae803005010xi1_2_5x5n069.sff.infile,f,a,"ae803005010xi1_2_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi1_2_5x5n069.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_5x5n069.sff
OUTFILE ae803005010xi1_2_5x5n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi1_2_5x5n069.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 306187 events )
saturated frame, t=267499124.909 - 267499132.909 6201 (1425/7626) seg=1111
saturated frame, t=267499132.909 - 267499140.909 2062 (1425/3487) seg=1111
saturated frame, t=267499212.909 - 267499220.909 472 (1423/1895) seg=1111
saturated frame, t=267499316.909 - 267499324.909 1115 (1423/2538) seg=1111
... 10% ( 30618 / 306187 events )
frame time jump, t=267501908.909 - 267503476.909 by 1568.000 s
saturated frame, t=267503476.909 - 267503484.909 39972 (1109/41081) seg=1111
saturated frame, t=267503484.909 - 267503492.909 37450 (808/38258) seg=1111
frame time jump, t=267503492.909 - 267503540.909 by 48.000 s
saturated frame, t=267503540.909 - 267503548.909 28651 (808/29459) seg=1111
saturated frame, t=267503548.909 - 267503556.909 1668 (1435/3103) seg=1111
... 20% ( 61236 / 306187 events )
saturated frame, t=267503556.909 - 267503564.909 1190 (1429/2619) seg=1111
saturated frame, t=267503564.909 - 267503572.909 475 (1444/1919) seg=1111
saturated frame, t=267503572.909 - 267503580.909 1018 (1444/2462) seg=1111
saturated frame, t=267503580.909 - 267503588.909 1099 (1449/2548) seg=1111
saturated frame, t=267503588.909 - 267503596.909 1026 (1447/2473) seg=1111
saturated frame, t=267503596.909 - 267503604.909 1082 (1445/2527) seg=1111
saturated frame, t=267503604.909 - 267503612.909 1081 (1446/2527) seg=1111
frame time jump, t=267503612.909 - 267503876.909 by 264.000 s
saturated frame, t=267504780.909 - 267504788.909 7891 (1458/9349) seg=1111
... 30% ( 91854 / 306187 events )
saturated frame, t=267504812.909 - 267504820.909 205 (1453/1658) seg=1111
saturated frame, t=267504836.909 - 267504844.909 5092 (1457/6549) seg=1111
saturated frame, t=267504908.909 - 267504916.909 19 (1454/1473) seg=1111
... 40% ( 122472 / 306187 events )
frame time jump, t=267508084.908 - 267509612.908 by 1528.000 s
saturated frame, t=267509612.908 - 267509620.908 38014 (808/38822) seg=1111
frame time jump, t=267509620.908 - 267509676.908 by 56.000 s
saturated frame, t=267509676.908 - 267509684.908 28859 (808/29667) seg=1111
saturated frame, t=267509684.908 - 267509692.908 6649 (1455/8104) seg=1111
saturated frame, t=267509692.908 - 267509700.908 5113 (1454/6567) seg=1111
... 50% ( 153090 / 306187 events )
saturated frame, t=267509700.908 - 267509708.908 5562 (1447/7009) seg=1111
saturated frame, t=267509708.908 - 267509716.908 5910 (1449/7359) seg=1111
saturated frame, t=267509716.908 - 267509724.908 6219 (1453/7672) seg=1111
saturated frame, t=267509724.908 - 267509732.908 6461 (1452/7913) seg=1111
saturated frame, t=267509732.908 - 267509740.908 6942 (1450/8392) seg=1111
saturated frame, t=267509740.908 - 267509748.908 8623 (1453/10076) seg=1111
saturated frame, t=267509748.908 - 267509756.908 8348 (1451/9799) seg=1111
saturated frame, t=267509756.908 - 267509764.908 9371 (1447/10818) seg=1111
saturated frame, t=267509764.908 - 267509772.908 9556 (1451/11007) seg=1111
saturated frame, t=267509772.908 - 267509780.908 9045 (1452/10497) seg=1111
... 60% ( 183708 / 306187 events )
saturated frame, t=267510780.908 - 267510788.908 1541 (1452/2993) seg=1111
saturated frame, t=267510796.908 - 267510804.908 193 (1454/1647) seg=1111
saturated frame, t=267510804.908 - 267510812.908 6092 (1457/7549) seg=1111
saturated frame, t=267510812.908 - 267510820.908 2001 (1457/3458) seg=1111
saturated frame, t=267510900.908 - 267510908.908 141 (1454/1595) seg=1111
... 70% ( 214326 / 306187 events )
frame time jump, t=267514220.907 - 267515596.907 by 1376.000 s
saturated frame, t=267515596.907 - 267515604.907 39750 (993/40743) seg=1111
saturated frame, t=267515604.907 - 267515612.907 37394 (808/38202) seg=1111
frame time jump, t=267515612.907 - 267515660.907 by 48.000 s
saturated frame, t=267515660.907 - 267515668.907 28791 (808/29599) seg=1111
saturated frame, t=267515668.907 - 267515676.907 22359 (1455/23814) seg=1111
saturated frame, t=267515676.907 - 267515684.907 19634 (1454/21088) seg=1111
saturated frame, t=267515684.907 - 267515692.907 21298 (1456/22754) seg=1111
... 80% ( 244944 / 306187 events )
saturated frame, t=267515692.907 - 267515700.907 22751 (1452/24203) seg=1111
saturated frame, t=267515700.907 - 267515708.907 25048 (1455/26503) seg=1111
saturated frame, t=267515708.907 - 267515716.907 25934 (1456/27390) seg=1111
saturated frame, t=267515716.907 - 267515724.907 27093 (1454/28547) seg=1111
saturated frame, t=267515724.907 - 267515732.907 27763 (1456/29219) seg=1111
saturated frame, t=267515732.907 - 267515740.907 28566 (1455/30021) seg=1111
saturated frame, t=267515740.907 - 267515748.907 28957 (1455/30412) seg=1111
saturated frame, t=267515748.907 - 267515756.907 29387 (1457/30844) seg=1111
saturated frame, t=267515756.907 - 267515764.907 30607 (1455/32062) seg=1111
saturated frame, t=267515764.907 - 267515772.907 11391 (1453/12844) seg=1111
saturated frame, t=267516188.907 - 267516196.907 4517 (1457/5974) seg=1111
saturated frame, t=267516196.907 - 267516204.907 92 (1450/1542) seg=1111
... 90% ( 275562 / 306187 events )
... 100% ( 306187 / 306187 events )
XIScheckEventNo: GTI file 'ae803005010xi1_2_5x5n069.gti' created
N_FRAMES = 1795 / number of frames in the input event file
N_TESTED = 1776 / number of non-zero frames tested
N_PASSED = 1720 / number of frames passed the test
N_T_JUMP = 7 / number of frames detected time jump
N_SATURA = 56 / number of frames telemetry saturated
T_TESTED = 14208.000000 / exposure of non-zero frames tested
T_PASSED = 13760.000000 / exposure of frames passed the test
T_T_JUMP = 4887.999248 / loss of exposure due to time jump
T_SATURA = 448.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1796
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1795/1796
[ 2] XISreadExp version 1.6
| OK: 1795/1795
[ 3] XISreadEvent version 2.7 <------- LOOP: 306187
| OK: 306187/307982 -------> SKIP: 1795
[ 4] XIScheckEventNo version 1.2
| OK: 306187/306187
GET: 306187
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1795 : XISreadFrame:ENTRY
1795 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1795 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
307982 : XISreadEvent:ENTRY
307981 : XISreadEvent:OK
1776 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
306187 : XIScheckEventNo:ENTRY
306187 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 242/5000
buffer size : 120000
buffer used : 6432
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 1795 307982 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1795 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1795 307982 SINGLE
XIS:FRAMES:S_TIME 8 8 1795 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1795 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1795 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1795 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1795 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1795 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1795 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1795 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1795 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1795 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1795 1776 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1795 0 SINGLE
XIS:FRAMES:BIAS 16 16 1795 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1795 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1795 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1795 307982 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1795 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1795 306187 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1795 1776 SINGLE
XIS:FRAMES:TIME 8 8 1795 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 306187 306187 SINGLE
XIS:RAWX 4 4 306187 0 SINGLE
XIS:RAWY 4 4 306187 0 SINGLE
XIS:ACTX 4 4 306187 0 SINGLE
XIS:ACTY 4 4 306187 0 SINGLE
XIS:DETX 4 4 306187 0 SINGLE
XIS:DETY 4 4 306187 0 SINGLE
XIS:FOCX 4 4 306187 0 SINGLE
XIS:FOCY 4 4 306187 0 SINGLE
XIS:X 4 4 306187 0 SINGLE
XIS:Y 4 4 306187 0 SINGLE
XIS:STATUS 4 4 306187 0 SINGLE
XIS:PHAS 100 100 306187 0 SINGLE
XIS:PHANOCTI 4 4 306187 0 SINGLE
XIS:PHA 4 4 306187 0 SINGLE
XIS:PI 4 4 306187 0 SINGLE
XIS:GRADE 4 4 306187 0 SINGLE
XIS:AEDATE 4 4 306187 307981 FAMILY
XIS:EXPTIME 4 4 306187 307981 FAMILY
XIS:EXPTIME_AETIME 8 8 306187 0 SINGLE
XIS:S_TIME 8 8 306187 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 306187 307981 FAMILY
XIS:EVENT_SEQ_NO 4 4 306187 307981 SINGLE
XIS:TIME 8 8 306187 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 306187 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.411 0.006 0.417 6.67
[ 2] XISreadExp 0.002 0.001 0.003 0.05
[ 3] XISreadEvent 5.295 0.216 5.511 88.15
[ 4] XIScheckEventNo 0.147 0.155 0.302 4.83
(others) 0.011 0.008 0.019 0.30
--------------------------------------------------------------------------
TOTAL 5.866 0.386 6.252 100.00
-> xisgtigen successful on ae803005010xi1_2_5x5n069.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi1_3_3x3n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi1_3_3x3n069.fff.infile,f,a,"ae803005010xi1_3_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_3_3x3n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_3_3x3n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 35807 events )
... 10% ( 3580 / 35807 events )
... 20% ( 7160 / 35807 events )
... 30% ( 10740 / 35807 events )
... 40% ( 14320 / 35807 events )
... 50% ( 17900 / 35807 events )
... 60% ( 21480 / 35807 events )
... 70% ( 25060 / 35807 events )
... 80% ( 28640 / 35807 events )
... 90% ( 32220 / 35807 events )
... 100% ( 35807 / 35807 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267529548.905401 / time start
TSTOP = 267532596.904953 / time stop
TELAPASE = 3047.999552 / elapsed time = TSTOP - TSTART
ONTIME = 3047.999552 / on time = sum of all GTIs
LIVETIME = 3047.999552 / on-source time corrected for CCD exposure
EXPOSURE = 3047.999552 / exposure time
xisEventFitsUtil: rename ./file6uvLAi-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 35809
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 35808/35809
[ 2] XISreadExp version 1.6
| OK: 35808/35808
[ 3] XISreadEvent version 2.7
| OK: 35807/35808 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 35807/35807
[ 5] XISeditEventFits version 2.1
| OK: 35807/35807
GET: 35807
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
35808 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
35808 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
35808 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
35807 : XIStime:ENTRY
35807 : XIStime:OK
1 : XISeditEventFits:BEGIN
35807 : XISeditEventFits:ENTRY
35807 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 35807 35807 SINGLE
XIS:RAWX 4 4 35807 35807 SINGLE
XIS:RAWY 4 4 35807 35807 SINGLE
XIS:ACTX 4 4 35807 35807 SINGLE
XIS:ACTY 4 4 35807 35807 SINGLE
XIS:DETX 4 4 35807 35807 SINGLE
XIS:DETY 4 4 35807 35807 SINGLE
XIS:FOCX 4 4 35807 35807 SINGLE
XIS:FOCY 4 4 35807 35807 SINGLE
XIS:X 4 4 35807 35807 SINGLE
XIS:Y 4 4 35807 35807 SINGLE
XIS:STATUS 4 4 35807 35807 SINGLE
XIS:PHAS 36 36 35807 35807 SINGLE
XIS:PHANOCTI 4 4 35807 35807 SINGLE
XIS:PHA 4 4 35807 35807 SINGLE
XIS:PI 4 4 35807 35807 SINGLE
XIS:GRADE 4 4 35807 35807 SINGLE
XIS:P_OUTER_MOST 4 4 35807 35807 SINGLE
XIS:SUM_OUTER_MOST 4 4 35807 35807 SINGLE
XIS:AEDATE 4 4 71614 35807 FAMILY
XIS:EXPTIME 4 4 35807 71614 FAMILY
XIS:EXPTIME_AETIME 8 8 71614 35807 SINGLE
XIS:S_TIME 8 8 35807 71614 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 35807 71614 FAMILY
XIS:EVENT_SEQ_NO 4 4 35807 35807 SINGLE
XIS:TIME 8 8 71614 35807 SINGLE
XIS:EXP_CENT_AETIME 8 8 71614 35807 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 35809 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.026 0.023 0.049 3.14
[ 2] XISreadExp 0.010 0.017 0.027 1.73
[ 3] XISreadEvent 0.585 0.034 0.619 39.68
[ 4] XIStime 0.199 0.034 0.233 14.94
[ 5] XISeditEventFits 0.561 0.053 0.614 39.36
(others) 0.007 0.011 0.018 1.15
--------------------------------------------------------------------------
TOTAL 1.388 0.172 1.560 100.00
-> xistime successful on ae803005010xi1_3_3x3n069.sff.infile,f,a,"ae803005010xi1_3_3x3n069.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_3_3x3n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_3_3x3n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 547.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 472.60 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 807.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 735.10 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 754.06 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 719.48 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 35807 events )
... 10% ( 3580 / 35807 events )
... 20% ( 7160 / 35807 events )
... 30% ( 10740 / 35807 events )
... 40% ( 14320 / 35807 events )
... 50% ( 17900 / 35807 events )
... 60% ( 21480 / 35807 events )
... 70% ( 25060 / 35807 events )
... 80% ( 28640 / 35807 events )
... 90% ( 32220 / 35807 events )
... 100% ( 35807 / 35807 events )
xisEventFitsUtil: rename ./file66BFvc-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 35809
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 35808/35809
[ 2] XISreadExp version 1.6
| OK: 35808/35808
[ 3] XISreadEvent version 2.7
| OK: 35807/35808 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 35807/35807
[ 5] XISeditEventFits version 2.1
| OK: 35807/35807
GET: 35807
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
35808 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
35808 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
35808 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
35807 : XIScoord:ENTRY
35807 : XIScoord:OK
1 : XISeditEventFits:BEGIN
35807 : XISeditEventFits:ENTRY
35807 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 35807 71614 SINGLE
XIS:RAWX 4 4 35807 71614 SINGLE
XIS:RAWY 4 4 35807 71614 SINGLE
XIS:ACTX 4 4 71614 35807 SINGLE
XIS:ACTY 4 4 71614 35807 SINGLE
XIS:DETX 4 4 71614 35807 SINGLE
XIS:DETY 4 4 71614 35807 SINGLE
XIS:FOCX 4 4 71614 35807 SINGLE
XIS:FOCY 4 4 71614 35807 SINGLE
XIS:X 4 4 71614 35807 SINGLE
XIS:Y 4 4 71614 35807 SINGLE
XIS:STATUS 4 4 35807 35807 SINGLE
XIS:PHAS 36 36 35807 35807 SINGLE
XIS:PHANOCTI 4 4 35807 35807 SINGLE
XIS:PHA 4 4 35807 35807 SINGLE
XIS:PI 4 4 35807 35807 SINGLE
XIS:GRADE 4 4 35807 35807 SINGLE
XIS:P_OUTER_MOST 4 4 35807 35807 SINGLE
XIS:SUM_OUTER_MOST 4 4 35807 35807 SINGLE
XIS:AEDATE 4 4 35807 35807 FAMILY
XIS:EXPTIME 4 4 35807 35807 FAMILY
XIS:EXPTIME_AETIME 8 8 35807 35807 SINGLE
XIS:S_TIME 8 8 35807 35807 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 35807 35807 FAMILY
XIS:EVENT_SEQ_NO 4 4 35807 35807 SINGLE
XIS:TIME 8 8 35807 71614 SINGLE
XIS:EXP_CENT_AETIME 8 8 35807 35807 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 35809 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.031 0.015 0.046 2.82
[ 2] XISreadExp 0.014 0.028 0.042 2.57
[ 3] XISreadEvent 0.585 0.027 0.612 37.48
[ 4] XIScoord 0.276 0.022 0.298 18.25
[ 5] XISeditEventFits 0.559 0.055 0.614 37.60
(others) 0.013 0.008 0.021 1.29
--------------------------------------------------------------------------
TOTAL 1.478 0.155 1.633 100.00
-> xiscoord successful on ae803005010xi1_3_3x3n069.sff.infile,f,a,"ae803005010xi1_3_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_3_3x3n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_3_3x3n069.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 35807 events )
... 10% ( 3580 / 35807 events )
... 20% ( 7160 / 35807 events )
... 30% ( 10740 / 35807 events )
... 40% ( 14320 / 35807 events )
... 50% ( 17900 / 35807 events )
... 60% ( 21480 / 35807 events )
... 70% ( 25060 / 35807 events )
... 80% ( 28640 / 35807 events )
... 90% ( 32220 / 35807 events )
... 100% ( 35807 / 35807 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 350 0.98
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 1066 2.98
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 128 0.36
B8 256 1PIX_FROM_SEGBOUNDARY 122 0.34
B9 512 SCI_3rd_TRAILING_ROW 463 1.29
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 1990 5.56
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 422 1.18
B16 65536 CALMASK 3421 9.55
B17 131072 SEGBOUNDARY 339 0.95
B18 262144 SCI_2nd_TRAILING_ROW 881 2.46
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 3873 10.82
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 669 1.87
B29 536870912 SCI_TRAILING_ROW 2047 5.72
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 3 0.01
### 0 CLEAN_ZERO 22938 64.06
--------------------------------------------------------------
+++ 4294967295 SUM 38712 108.11
::: 524287 SAFE(B0-18) 29725 83.01
>>> 4294967295 TOTAL 35807 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./file3tjre9-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 35809
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 35808/35809
[ 2] XISreadExp version 1.6
| OK: 35808/35808
[ 3] XISreadEvent version 2.7
| OK: 35807/35808 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 35807/35807
[ 5] XISeditEventFits version 2.1
| OK: 35807/35807
GET: 35807
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
35808 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
35808 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
35808 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
35807 : XISputPixelQuality:ENTRY
35807 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
35807 : XISeditEventFits:ENTRY
35807 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 35807 35807 SINGLE
XIS:RAWX 4 4 35807 35807 SINGLE
XIS:RAWY 4 4 35807 71614 SINGLE
XIS:ACTX 4 4 35807 71614 SINGLE
XIS:ACTY 4 4 35807 71614 SINGLE
XIS:DETX 4 4 35807 35807 SINGLE
XIS:DETY 4 4 35807 35807 SINGLE
XIS:FOCX 4 4 35807 35807 SINGLE
XIS:FOCY 4 4 35807 35807 SINGLE
XIS:X 4 4 35807 35807 SINGLE
XIS:Y 4 4 35807 35807 SINGLE
XIS:STATUS 4 4 71614 35807 SINGLE
XIS:PHAS 36 36 35807 35807 SINGLE
XIS:PHANOCTI 4 4 35807 35807 SINGLE
XIS:PHA 4 4 35807 35807 SINGLE
XIS:PI 4 4 35807 35807 SINGLE
XIS:GRADE 4 4 35807 35807 SINGLE
XIS:P_OUTER_MOST 4 4 35807 35807 SINGLE
XIS:SUM_OUTER_MOST 4 4 35807 35807 SINGLE
XIS:AEDATE 4 4 35807 35807 FAMILY
XIS:EXPTIME 4 4 35807 35807 FAMILY
XIS:EXPTIME_AETIME 8 8 35807 35807 SINGLE
XIS:S_TIME 8 8 35807 35807 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 35807 35807 FAMILY
XIS:EVENT_SEQ_NO 4 4 35807 35807 SINGLE
XIS:TIME 8 8 35807 71614 SINGLE
XIS:EXP_CENT_AETIME 8 8 35807 35807 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 35809 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.028 0.013 0.041 2.88
[ 2] XISreadExp 0.011 0.014 0.025 1.76
[ 3] XISreadEvent 0.579 0.018 0.597 41.98
[ 4] XISputPixelQuality 0.088 0.030 0.118 8.30
[ 5] XISeditEventFits 0.556 0.068 0.624 43.88
(others) 0.010 0.007 0.017 1.20
--------------------------------------------------------------------------
TOTAL 1.272 0.150 1.422 100.00
-> xisputpixelquality successful on ae803005010xi1_3_3x3n069.sff.infile,f,a,"ae803005010xi1_3_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi1_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_3_3x3n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_3_3x3n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi1_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi1_0.hk, S1_VDCHK18_CAL, nrows=5662
nvalid=5323 nrej=339 time=267336985.4 - 267532653.4 [s]
AE-temp: average=19.759 sigma=1.599 min=16.410 max=22.523 [degC]
Event... 1 (0)
... 0% ( 0 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 3580 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 7160 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 10740 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 14320 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 17900 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 21480 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 25060 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 28640 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 32220 / 35807 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 35807 / 35807 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./file796A4F-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 35809
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 35808/35809
[ 2] XISreadExp version 1.6
| OK: 35808/35808
[ 3] XISreadEvent version 2.7
| OK: 35807/35808 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 35807/35807
[ 5] XIStrailCorrection version 3.1
| OK: 35807/35807
[ 6] XISctiCorrection version 3.4
| OK: 35807/35807
[ 7] XISgrade version 3.3
| OK: 35807/35807
[ 8] XISpha2pi version 3.2
| OK: 35807/35807
[ 9] XISeditEventFits version 2.1
| OK: 35807/35807
GET: 35807
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
35808 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
35808 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
35808 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
35807 : XISpreparePHASCORR:ENTRY
35807 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
35807 : XIStrailCorrection:ENTRY
35807 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
35807 : XISctiCorrection:ENTRY
35807 : XISctiCorrection:OK
1 : XISgrade:BEGIN
35807 : XISgrade:ENTRY
35807 : XISgrade:OK
1 : XISpha2pi:BEGIN
35807 : XISpha2pi:ENTRY
35807 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
35807 : XISeditEventFits:ENTRY
35807 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 143234 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 35807 179035 SINGLE
XIS:RAWX 4 4 35807 107421 SINGLE
XIS:RAWY 4 4 35807 71614 SINGLE
XIS:ACTX 4 4 35807 35807 SINGLE
XIS:ACTY 4 4 35807 107421 SINGLE
XIS:DETX 4 4 35807 35807 SINGLE
XIS:DETY 4 4 35807 35807 SINGLE
XIS:FOCX 4 4 35807 35807 SINGLE
XIS:FOCY 4 4 35807 35807 SINGLE
XIS:X 4 4 35807 35807 SINGLE
XIS:Y 4 4 35807 35807 SINGLE
XIS:STATUS 4 4 35807 35807 SINGLE
XIS:PHAS 36 36 35807 71614 SINGLE
XIS:PHANOCTI 4 4 71614 35807 SINGLE
XIS:PHA 4 4 71614 35807 SINGLE
XIS:PI 4 4 71614 35807 SINGLE
XIS:GRADE 4 4 71614 35807 SINGLE
XIS:P_OUTER_MOST 4 4 35807 71614 SINGLE
XIS:SUM_OUTER_MOST 4 4 35807 71614 SINGLE
XIS:AEDATE 4 4 35807 35807 FAMILY
XIS:EXPTIME 4 4 35807 35807 FAMILY
XIS:EXPTIME_AETIME 8 8 35807 35807 SINGLE
XIS:S_TIME 8 8 35807 35807 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 35807 35807 FAMILY
XIS:EVENT_SEQ_NO 4 4 35807 35807 SINGLE
XIS:TIME 8 8 35807 179035 SINGLE
XIS:EXP_CENT_AETIME 8 8 35807 35807 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 35809 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 71614 35807 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 35807 35807 SINGLE
XIS:PHASCORR 72 72 107421 107421 SINGLE
XIS:PHA:DOUBLE 8 8 35807 35807 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.041 0.021 0.062 1.94
[ 2] XISreadExp 0.011 0.027 0.038 1.19
[ 3] XISreadEvent 0.586 0.031 0.617 19.33
[ 4] XISpreparePHASCORR 0.027 0.026 0.053 1.66
[ 5] XIStrailCorrection 0.078 0.021 0.099 3.10
[ 6] XISctiCorrection 0.992 0.384 1.376 43.11
[ 7] XISgrade 0.144 0.012 0.156 4.89
[ 8] XISpha2pi 0.093 0.021 0.114 3.57
[ 9] XISeditEventFits 0.599 0.052 0.651 20.39
(others) 0.018 0.008 0.026 0.81
--------------------------------------------------------------------------
TOTAL 2.589 0.603 3.192 100.00
-> xispi successful on ae803005010xi1_3_3x3n069.sff.infile,f,a,"ae803005010xi1_3_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi1_3_3x3n069.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_3_3x3n069.sff
OUTFILE ae803005010xi1_3_3x3n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi1_3_3x3n069.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 35807 events )
saturated frame, t=267529548.905 - 267529556.905 -62 (62/0) seg=1111
... 10% ( 3580 / 35807 events )
... 20% ( 7160 / 35807 events )
... 30% ( 10740 / 35807 events )
... 40% ( 14320 / 35807 events )
... 50% ( 17900 / 35807 events )
... 60% ( 21480 / 35807 events )
... 70% ( 25060 / 35807 events )
... 80% ( 28640 / 35807 events )
... 90% ( 32220 / 35807 events )
... 100% ( 35807 / 35807 events )
XIScheckEventNo: GTI file 'ae803005010xi1_3_3x3n069.gti' created
N_FRAMES = 381 / number of frames in the input event file
N_TESTED = 381 / number of non-zero frames tested
N_PASSED = 380 / number of frames passed the test
N_T_JUMP = 0 / number of frames detected time jump
N_SATURA = 1 / number of frames telemetry saturated
T_TESTED = 3048.000000 / exposure of non-zero frames tested
T_PASSED = 3040.000000 / exposure of frames passed the test
T_T_JUMP = 0.000000 / loss of exposure due to time jump
T_SATURA = 8.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 382
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 381/382
[ 2] XISreadExp version 1.6
| OK: 381/381
[ 3] XISreadEvent version 2.7 <------- LOOP: 35807
| OK: 35807/36188 -------> SKIP: 381
[ 4] XIScheckEventNo version 1.2
| OK: 35807/35807
GET: 35807
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
381 : XISreadFrame:ENTRY
381 : XISreadFrame:OK
1 : XISreadExp:BEGIN
381 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
36188 : XISreadEvent:ENTRY
36187 : XISreadEvent:OK
381 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
35807 : XIScheckEventNo:ENTRY
35807 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 381 36188 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 381 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 381 36188 SINGLE
XIS:FRAMES:S_TIME 8 8 381 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 381 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 381 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 381 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 381 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 381 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 381 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 381 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 381 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 381 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 381 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 381 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 381 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 381 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 381 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 381 381 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 381 0 SINGLE
XIS:FRAMES:BIAS 16 16 381 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 381 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 381 0 SINGLE
XIS:FRAMES:AEDATE 4 4 381 36188 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 381 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 381 35807 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 381 381 SINGLE
XIS:FRAMES:TIME 8 8 381 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 35807 35807 SINGLE
XIS:RAWX 4 4 35807 0 SINGLE
XIS:RAWY 4 4 35807 0 SINGLE
XIS:ACTX 4 4 35807 0 SINGLE
XIS:ACTY 4 4 35807 0 SINGLE
XIS:DETX 4 4 35807 0 SINGLE
XIS:DETY 4 4 35807 0 SINGLE
XIS:FOCX 4 4 35807 0 SINGLE
XIS:FOCY 4 4 35807 0 SINGLE
XIS:X 4 4 35807 0 SINGLE
XIS:Y 4 4 35807 0 SINGLE
XIS:STATUS 4 4 35807 0 SINGLE
XIS:PHAS 36 36 35807 0 SINGLE
XIS:PHANOCTI 4 4 35807 0 SINGLE
XIS:PHA 4 4 35807 0 SINGLE
XIS:PI 4 4 35807 0 SINGLE
XIS:GRADE 4 4 35807 0 SINGLE
XIS:P_OUTER_MOST 4 4 35807 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 35807 0 SINGLE
XIS:AEDATE 4 4 35807 36187 FAMILY
XIS:EXPTIME 4 4 35807 36187 FAMILY
XIS:EXPTIME_AETIME 8 8 35807 0 SINGLE
XIS:S_TIME 8 8 35807 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 35807 36187 FAMILY
XIS:EVENT_SEQ_NO 4 4 35807 36187 SINGLE
XIS:TIME 8 8 35807 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 35807 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.080 0.003 0.083 9.24
[ 2] XISreadExp 0.003 0.000 0.003 0.33
[ 3] XISreadEvent 0.727 0.019 0.746 83.07
[ 4] XIScheckEventNo 0.027 0.017 0.044 4.90
(others) 0.015 0.007 0.022 2.45
--------------------------------------------------------------------------
TOTAL 0.852 0.046 0.898 100.00
-> xisgtigen successful on ae803005010xi1_3_3x3n069.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi3_1_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi3_1_3x3n066.fff.infile,f,a,"ae803005010xi3_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_1_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 342731 events )
... 10% ( 34273 / 342731 events )
... 20% ( 68546 / 342731 events )
Event... 100001 (100000)
... 30% ( 102819 / 342731 events )
... 40% ( 137092 / 342731 events )
... 50% ( 171365 / 342731 events )
Event... 200001 (200000)
... 60% ( 205638 / 342731 events )
... 70% ( 239911 / 342731 events )
... 80% ( 274184 / 342731 events )
Event... 300001 (300000)
... 90% ( 308457 / 342731 events )
... 100% ( 342731 / 342731 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267345628.929371 / time start
TSTOP = 267438812.917221 / time stop
TELAPASE = 93183.987851 / elapsed time = TSTOP - TSTART
ONTIME = 56431.992493 / on time = sum of all GTIs
LIVETIME = 56431.992493 / on-source time corrected for CCD exposure
EXPOSURE = 56431.992493 / exposure time
xisEventFitsUtil: rename ./fileHid85x-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 342733
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 342732/342733
[ 2] XISreadExp version 1.6
| OK: 342732/342732
[ 3] XISreadEvent version 2.7
| OK: 342731/342732 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 342731/342731
[ 5] XISeditEventFits version 2.1
| OK: 342731/342731
GET: 342731
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
342732 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
342732 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
342732 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
342731 : XIStime:ENTRY
342731 : XIStime:OK
1 : XISeditEventFits:BEGIN
342731 : XISeditEventFits:ENTRY
342731 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 342731 342731 SINGLE
XIS:RAWX 4 4 342731 342731 SINGLE
XIS:RAWY 4 4 342731 342731 SINGLE
XIS:ACTX 4 4 342731 342731 SINGLE
XIS:ACTY 4 4 342731 342731 SINGLE
XIS:DETX 4 4 342731 342731 SINGLE
XIS:DETY 4 4 342731 342731 SINGLE
XIS:FOCX 4 4 342731 342731 SINGLE
XIS:FOCY 4 4 342731 342731 SINGLE
XIS:X 4 4 342731 342731 SINGLE
XIS:Y 4 4 342731 342731 SINGLE
XIS:STATUS 4 4 342731 342731 SINGLE
XIS:PHAS 36 36 342731 342731 SINGLE
XIS:PHANOCTI 4 4 342731 342731 SINGLE
XIS:PHA 4 4 342731 342731 SINGLE
XIS:PI 4 4 342731 342731 SINGLE
XIS:GRADE 4 4 342731 342731 SINGLE
XIS:P_OUTER_MOST 4 4 342731 342731 SINGLE
XIS:SUM_OUTER_MOST 4 4 342731 342731 SINGLE
XIS:AEDATE 4 4 685462 342731 FAMILY
XIS:EXPTIME 4 4 342731 685462 FAMILY
XIS:EXPTIME_AETIME 8 8 685462 342731 SINGLE
XIS:S_TIME 8 8 342731 685462 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342731 685462 FAMILY
XIS:EVENT_SEQ_NO 4 4 342731 342731 SINGLE
XIS:TIME 8 8 685462 342731 SINGLE
XIS:EXP_CENT_AETIME 8 8 685462 342731 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 342733 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.253 0.190 0.443 3.36
[ 2] XISreadExp 0.102 0.144 0.246 1.86
[ 3] XISreadEvent 5.570 0.323 5.893 44.65
[ 4] XIStime 0.850 0.205 1.055 7.99
[ 5] XISeditEventFits 5.107 0.438 5.545 42.01
(others) 0.012 0.005 0.017 0.13
--------------------------------------------------------------------------
TOTAL 11.894 1.305 13.199 100.00
-> xistime successful on ae803005010xi3_1_3x3n066.sff.infile,f,a,"ae803005010xi3_1_3x3n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_1_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 468.60 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 545.70 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 736.10 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 805.20 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 788.85 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 813.15 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 342731 events )
... 10% ( 34273 / 342731 events )
... 20% ( 68546 / 342731 events )
Event... 100001 (100000)
... 30% ( 102819 / 342731 events )
... 40% ( 137092 / 342731 events )
... 50% ( 171365 / 342731 events )
Event... 200001 (200000)
... 60% ( 205638 / 342731 events )
... 70% ( 239911 / 342731 events )
... 80% ( 274184 / 342731 events )
Event... 300001 (300000)
... 90% ( 308457 / 342731 events )
... 100% ( 342731 / 342731 events )
xisEventFitsUtil: rename ./fileUVJu5l-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 342733
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 342732/342733
[ 2] XISreadExp version 1.6
| OK: 342732/342732
[ 3] XISreadEvent version 2.7
| OK: 342731/342732 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 342731/342731
[ 5] XISeditEventFits version 2.1
| OK: 342731/342731
GET: 342731
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
342732 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
342732 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
342732 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
342731 : XIScoord:ENTRY
342731 : XIScoord:OK
1 : XISeditEventFits:BEGIN
342731 : XISeditEventFits:ENTRY
342731 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 342731 685462 SINGLE
XIS:RAWX 4 4 342731 685462 SINGLE
XIS:RAWY 4 4 342731 685462 SINGLE
XIS:ACTX 4 4 685462 342731 SINGLE
XIS:ACTY 4 4 685462 342731 SINGLE
XIS:DETX 4 4 685462 342731 SINGLE
XIS:DETY 4 4 685462 342731 SINGLE
XIS:FOCX 4 4 685462 342731 SINGLE
XIS:FOCY 4 4 685462 342731 SINGLE
XIS:X 4 4 685462 342731 SINGLE
XIS:Y 4 4 685462 342731 SINGLE
XIS:STATUS 4 4 342731 342731 SINGLE
XIS:PHAS 36 36 342731 342731 SINGLE
XIS:PHANOCTI 4 4 342731 342731 SINGLE
XIS:PHA 4 4 342731 342731 SINGLE
XIS:PI 4 4 342731 342731 SINGLE
XIS:GRADE 4 4 342731 342731 SINGLE
XIS:P_OUTER_MOST 4 4 342731 342731 SINGLE
XIS:SUM_OUTER_MOST 4 4 342731 342731 SINGLE
XIS:AEDATE 4 4 342731 342731 FAMILY
XIS:EXPTIME 4 4 342731 342731 FAMILY
XIS:EXPTIME_AETIME 8 8 342731 342731 SINGLE
XIS:S_TIME 8 8 342731 342731 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342731 342731 FAMILY
XIS:EVENT_SEQ_NO 4 4 342731 342731 SINGLE
XIS:TIME 8 8 342731 685462 SINGLE
XIS:EXP_CENT_AETIME 8 8 342731 342731 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 342733 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.265 0.173 0.438 2.93
[ 2] XISreadExp 0.102 0.149 0.251 1.68
[ 3] XISreadEvent 5.668 0.261 5.929 39.64
[ 4] XIScoord 2.356 0.232 2.588 17.30
[ 5] XISeditEventFits 5.233 0.495 5.728 38.30
(others) 0.019 0.005 0.024 0.16
--------------------------------------------------------------------------
TOTAL 13.643 1.315 14.958 100.00
-> xiscoord successful on ae803005010xi3_1_3x3n066.sff.infile,f,a,"ae803005010xi3_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_1_3x3n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 342731 events )
... 10% ( 34273 / 342731 events )
... 20% ( 68546 / 342731 events )
Event... 100001 (100000)
... 30% ( 102819 / 342731 events )
... 40% ( 137092 / 342731 events )
... 50% ( 171365 / 342731 events )
Event... 200001 (200000)
... 60% ( 205638 / 342731 events )
... 70% ( 239911 / 342731 events )
... 80% ( 274184 / 342731 events )
Event... 300001 (300000)
... 90% ( 308457 / 342731 events )
... 100% ( 342731 / 342731 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 5775 1.68
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 13674 3.99
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 3885 1.13
B8 256 1PIX_FROM_SEGBOUNDARY 1814 0.53
B9 512 SCI_3rd_TRAILING_ROW 4525 1.32
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 15456 4.51
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 4875 1.42
B16 65536 CALMASK 50300 14.68
B17 131072 SEGBOUNDARY 7460 2.18
B18 262144 SCI_2nd_TRAILING_ROW 4575 1.33
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 14181 4.14
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 44594 13.01
B29 536870912 SCI_TRAILING_ROW 47250 13.79
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 131 0.04
### 0 CLEAN_ZERO 172681 50.38
--------------------------------------------------------------
+++ 4294967295 SUM 391176 114.13
::: 524287 SAFE(B0-18) 242870 70.86
>>> 4294967295 TOTAL 342731 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filevtmuz3-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 342733
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 342732/342733
[ 2] XISreadExp version 1.6
| OK: 342732/342732
[ 3] XISreadEvent version 2.7
| OK: 342731/342732 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 342731/342731
[ 5] XISeditEventFits version 2.1
| OK: 342731/342731
GET: 342731
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
342732 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
342732 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
342732 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
342731 : XISputPixelQuality:ENTRY
342731 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
342731 : XISeditEventFits:ENTRY
342731 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 342731 342731 SINGLE
XIS:RAWX 4 4 342731 342731 SINGLE
XIS:RAWY 4 4 342731 685462 SINGLE
XIS:ACTX 4 4 342731 685462 SINGLE
XIS:ACTY 4 4 342731 685462 SINGLE
XIS:DETX 4 4 342731 342731 SINGLE
XIS:DETY 4 4 342731 342731 SINGLE
XIS:FOCX 4 4 342731 342731 SINGLE
XIS:FOCY 4 4 342731 342731 SINGLE
XIS:X 4 4 342731 342731 SINGLE
XIS:Y 4 4 342731 342731 SINGLE
XIS:STATUS 4 4 685462 342731 SINGLE
XIS:PHAS 36 36 342731 342731 SINGLE
XIS:PHANOCTI 4 4 342731 342731 SINGLE
XIS:PHA 4 4 342731 342731 SINGLE
XIS:PI 4 4 342731 342731 SINGLE
XIS:GRADE 4 4 342731 342731 SINGLE
XIS:P_OUTER_MOST 4 4 342731 342731 SINGLE
XIS:SUM_OUTER_MOST 4 4 342731 342731 SINGLE
XIS:AEDATE 4 4 342731 342731 FAMILY
XIS:EXPTIME 4 4 342731 342731 FAMILY
XIS:EXPTIME_AETIME 8 8 342731 342731 SINGLE
XIS:S_TIME 8 8 342731 342731 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342731 342731 FAMILY
XIS:EVENT_SEQ_NO 4 4 342731 342731 SINGLE
XIS:TIME 8 8 342731 685462 SINGLE
XIS:EXP_CENT_AETIME 8 8 342731 342731 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 342733 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.251 0.178 0.429 3.38
[ 2] XISreadExp 0.101 0.167 0.268 2.11
[ 3] XISreadEvent 5.545 0.230 5.775 45.46
[ 4] XISputPixelQuality 0.505 0.172 0.677 5.33
[ 5] XISeditEventFits 4.957 0.578 5.535 43.57
(others) 0.011 0.008 0.019 0.15
--------------------------------------------------------------------------
TOTAL 11.370 1.333 12.703 100.00
-> xisputpixelquality successful on ae803005010xi3_1_3x3n066.sff.infile,f,a,"ae803005010xi3_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi3_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_1_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi3_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi3_0.hk, S3_VDCHK18_CAL, nrows=5662
nvalid=5325 nrej=337 time=267336977.4 - 267532613.4 [s]
AE-temp: average=15.892 sigma=1.508 min=11.909 max=18.354 [degC]
Event... 1 (0)
... 0% ( 0 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 34273 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 68546 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 102819 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 137092 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 171365 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 205638 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 239911 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 274184 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 308457 / 342731 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 342731 / 342731 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileunrOFg-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 342733
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 342732/342733
[ 2] XISreadExp version 1.6
| OK: 342732/342732
[ 3] XISreadEvent version 2.7
| OK: 342731/342732 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 342731/342731
[ 5] XIStrailCorrection version 3.1
| OK: 342731/342731
[ 6] XISctiCorrection version 3.4
| OK: 342731/342731
[ 7] XISgrade version 3.3
| OK: 342731/342731
[ 8] XISpha2pi version 3.2
| OK: 342731/342731
[ 9] XISeditEventFits version 2.1
| OK: 342731/342731
GET: 342731
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
342732 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
342732 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
342732 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
342731 : XISpreparePHASCORR:ENTRY
342731 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
342731 : XIStrailCorrection:ENTRY
342731 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
342731 : XISctiCorrection:ENTRY
342731 : XISctiCorrection:OK
1 : XISgrade:BEGIN
342731 : XISgrade:ENTRY
342731 : XISgrade:OK
1 : XISpha2pi:BEGIN
342731 : XISpha2pi:ENTRY
342731 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
342731 : XISeditEventFits:ENTRY
342731 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 1370930 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 342731 1713655 SINGLE
XIS:RAWX 4 4 342731 1028193 SINGLE
XIS:RAWY 4 4 342731 685462 SINGLE
XIS:ACTX 4 4 342731 342731 SINGLE
XIS:ACTY 4 4 342731 1028193 SINGLE
XIS:DETX 4 4 342731 342731 SINGLE
XIS:DETY 4 4 342731 342731 SINGLE
XIS:FOCX 4 4 342731 342731 SINGLE
XIS:FOCY 4 4 342731 342731 SINGLE
XIS:X 4 4 342731 342731 SINGLE
XIS:Y 4 4 342731 342731 SINGLE
XIS:STATUS 4 4 342731 342731 SINGLE
XIS:PHAS 36 36 342731 685462 SINGLE
XIS:PHANOCTI 4 4 685462 342731 SINGLE
XIS:PHA 4 4 685462 342731 SINGLE
XIS:PI 4 4 685462 342731 SINGLE
XIS:GRADE 4 4 685462 342731 SINGLE
XIS:P_OUTER_MOST 4 4 342731 685462 SINGLE
XIS:SUM_OUTER_MOST 4 4 342731 685462 SINGLE
XIS:AEDATE 4 4 342731 342731 FAMILY
XIS:EXPTIME 4 4 342731 342731 FAMILY
XIS:EXPTIME_AETIME 8 8 342731 342731 SINGLE
XIS:S_TIME 8 8 342731 342731 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342731 342731 FAMILY
XIS:EVENT_SEQ_NO 4 4 342731 342731 SINGLE
XIS:TIME 8 8 342731 1713655 SINGLE
XIS:EXP_CENT_AETIME 8 8 342731 342731 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 342733 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 685462 342731 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 342731 342731 SINGLE
XIS:PHASCORR 72 72 1028193 1028193 SINGLE
XIS:PHA:DOUBLE 8 8 342731 342731 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.304 0.181 0.485 1.30
[ 2] XISreadExp 0.091 0.165 0.256 0.68
[ 3] XISreadEvent 5.886 0.264 6.150 16.45
[ 4] XISpreparePHASCORR 0.276 0.177 0.453 1.21
[ 5] XIStrailCorrection 0.690 0.190 0.880 2.35
[ 6] XISctiCorrection 14.644 6.544 21.188 56.68
[ 7] XISgrade 1.174 0.196 1.370 3.66
[ 8] XISpha2pi 0.715 0.189 0.904 2.42
[ 9] XISeditEventFits 5.238 0.430 5.668 15.16
(others) 0.019 0.008 0.027 0.07
--------------------------------------------------------------------------
TOTAL 29.037 8.344 37.380 100.00
-> xispi successful on ae803005010xi3_1_3x3n066.sff.infile,f,a,"ae803005010xi3_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi3_1_3x3n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_3x3n066.sff
OUTFILE ae803005010xi3_1_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi3_1_3x3n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 342731 events )
frame time jump, t=267347716.929 - 267349868.929 by 2152.000 s
frame time jump, t=267353836.928 - 267355620.928 by 1784.000 s
... 10% ( 34273 / 342731 events )
frame time jump, t=267359956.927 - 267361372.927 by 1416.000 s
... 20% ( 68546 / 342731 events )
saturated frame, t=267366132.927 - 267366140.927 183 (153/336) seg=1111
frame time jump, t=267366140.927 - 267367108.927 by 968.000 s
saturated frame, t=267367108.927 - 267367116.927 138 (327/465) seg=1111
frame time jump, t=267370732.926 - 267372876.926 by 2144.000 s
... 30% ( 102819 / 342731 events )
frame time jump, t=267376492.925 - 267378636.925 by 2144.000 s
... 40% ( 137092 / 342731 events )
frame time jump, t=267382236.925 - 267384380.924 by 2144.000 s
frame time jump, t=267387980.924 - 267390124.924 by 2144.000 s
... 50% ( 171365 / 342731 events )
frame time jump, t=267393740.923 - 267395884.923 by 2144.000 s
... 60% ( 205638 / 342731 events )
frame time jump, t=267399500.922 - 267401644.922 by 2144.000 s
... 70% ( 239911 / 342731 events )
frame time jump, t=267403852.922 - 267404940.922 by 1088.000 s
frame time jump, t=267405076.922 - 267407396.921 by 2320.000 s
frame time jump, t=267409716.921 - 267413140.921 by 3424.000 s
... 80% ( 274184 / 342731 events )
frame time jump, t=267415652.920 - 267418892.920 by 3240.000 s
frame time jump, t=267421756.919 - 267424644.919 by 2888.000 s
... 90% ( 308457 / 342731 events )
frame time jump, t=267427908.919 - 267430396.918 by 2488.000 s
frame time jump, t=267434028.918 - 267436148.918 by 2120.000 s
... 100% ( 342731 / 342731 events )
XIScheckEventNo: GTI file 'ae803005010xi3_1_3x3n066.gti' created
N_FRAMES = 7054 / number of frames in the input event file
N_TESTED = 7054 / number of non-zero frames tested
N_PASSED = 7052 / number of frames passed the test
N_T_JUMP = 17 / number of frames detected time jump
N_SATURA = 2 / number of frames telemetry saturated
T_TESTED = 56432.000000 / exposure of non-zero frames tested
T_PASSED = 56416.000000 / exposure of frames passed the test
T_T_JUMP = 36751.995358 / loss of exposure due to time jump
T_SATURA = 16.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7055
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 7054/7055
[ 2] XISreadExp version 1.6
| OK: 7054/7054
[ 3] XISreadEvent version 2.7 <------- LOOP: 342731
| OK: 342731/349785 -------> SKIP: 7054
[ 4] XIScheckEventNo version 1.2
| OK: 342731/342731
GET: 342731
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
7054 : XISreadFrame:ENTRY
7054 : XISreadFrame:OK
1 : XISreadExp:BEGIN
7054 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
349785 : XISreadEvent:ENTRY
349784 : XISreadEvent:OK
7054 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
342731 : XIScheckEventNo:ENTRY
342731 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 7054 349785 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 7054 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 7054 349785 SINGLE
XIS:FRAMES:S_TIME 8 8 7054 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 7054 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 7054 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 7054 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 7054 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 7054 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 7054 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 7054 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 7054 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 7054 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 7054 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 7054 7054 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 7054 0 SINGLE
XIS:FRAMES:BIAS 16 16 7054 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 7054 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 7054 0 SINGLE
XIS:FRAMES:AEDATE 4 4 7054 349785 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 7054 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 7054 342731 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 7054 7054 SINGLE
XIS:FRAMES:TIME 8 8 7054 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 342731 342731 SINGLE
XIS:RAWX 4 4 342731 0 SINGLE
XIS:RAWY 4 4 342731 0 SINGLE
XIS:ACTX 4 4 342731 0 SINGLE
XIS:ACTY 4 4 342731 0 SINGLE
XIS:DETX 4 4 342731 0 SINGLE
XIS:DETY 4 4 342731 0 SINGLE
XIS:FOCX 4 4 342731 0 SINGLE
XIS:FOCY 4 4 342731 0 SINGLE
XIS:X 4 4 342731 0 SINGLE
XIS:Y 4 4 342731 0 SINGLE
XIS:STATUS 4 4 342731 0 SINGLE
XIS:PHAS 36 36 342731 0 SINGLE
XIS:PHANOCTI 4 4 342731 0 SINGLE
XIS:PHA 4 4 342731 0 SINGLE
XIS:PI 4 4 342731 0 SINGLE
XIS:GRADE 4 4 342731 0 SINGLE
XIS:P_OUTER_MOST 4 4 342731 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 342731 0 SINGLE
XIS:AEDATE 4 4 342731 349784 FAMILY
XIS:EXPTIME 4 4 342731 349784 FAMILY
XIS:EXPTIME_AETIME 8 8 342731 0 SINGLE
XIS:S_TIME 8 8 342731 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 342731 349784 FAMILY
XIS:EVENT_SEQ_NO 4 4 342731 349784 SINGLE
XIS:TIME 8 8 342731 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 342731 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 1.657 0.017 1.674 16.53
[ 2] XISreadExp 0.009 0.002 0.011 0.11
[ 3] XISreadEvent 7.870 0.206 8.076 79.75
[ 4] XIScheckEventNo 0.175 0.172 0.347 3.43
(others) 0.015 0.004 0.019 0.19
--------------------------------------------------------------------------
TOTAL 9.726 0.401 10.126 100.00
-> xisgtigen successful on ae803005010xi3_1_3x3n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi3_1_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi3_1_5x5n066.fff.infile,f,a,"ae803005010xi3_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_1_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 48759 events )
... 10% ( 4875 / 48759 events )
... 20% ( 9750 / 48759 events )
... 30% ( 14625 / 48759 events )
... 40% ( 19500 / 48759 events )
... 50% ( 24375 / 48759 events )
... 60% ( 29250 / 48759 events )
... 70% ( 34125 / 48759 events )
... 80% ( 39000 / 48759 events )
... 90% ( 43875 / 48759 events )
... 100% ( 48759 / 48759 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267336980.930548 / time start
TSTOP = 267345628.929372 / time stop
TELAPASE = 8647.998823 / elapsed time = TSTOP - TSTART
ONTIME = 7199.999036 / on time = sum of all GTIs
LIVETIME = 7199.999036 / on-source time corrected for CCD exposure
EXPOSURE = 7199.999036 / exposure time
xisEventFitsUtil: rename ./fileKJOxQd-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 48761
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 48760/48761
[ 2] XISreadExp version 1.6
| OK: 48760/48760
[ 3] XISreadEvent version 2.7
| OK: 48759/48760 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 48759/48759
[ 5] XISeditEventFits version 2.1
| OK: 48759/48759
GET: 48759
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
48760 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
48760 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
48760 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
48759 : XIStime:ENTRY
48759 : XIStime:OK
1 : XISeditEventFits:BEGIN
48759 : XISeditEventFits:ENTRY
48759 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 48759 48759 SINGLE
XIS:RAWX 4 4 48759 48759 SINGLE
XIS:RAWY 4 4 48759 48759 SINGLE
XIS:ACTX 4 4 48759 48759 SINGLE
XIS:ACTY 4 4 48759 48759 SINGLE
XIS:DETX 4 4 48759 48759 SINGLE
XIS:DETY 4 4 48759 48759 SINGLE
XIS:FOCX 4 4 48759 48759 SINGLE
XIS:FOCY 4 4 48759 48759 SINGLE
XIS:X 4 4 48759 48759 SINGLE
XIS:Y 4 4 48759 48759 SINGLE
XIS:STATUS 4 4 48759 48759 SINGLE
XIS:PHAS 100 100 48759 48759 SINGLE
XIS:PHANOCTI 4 4 48759 48759 SINGLE
XIS:PHA 4 4 48759 48759 SINGLE
XIS:PI 4 4 48759 48759 SINGLE
XIS:GRADE 4 4 48759 48759 SINGLE
XIS:AEDATE 4 4 97518 48759 FAMILY
XIS:EXPTIME 4 4 48759 97518 FAMILY
XIS:EXPTIME_AETIME 8 8 97518 48759 SINGLE
XIS:S_TIME 8 8 48759 97518 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 48759 97518 FAMILY
XIS:EVENT_SEQ_NO 4 4 48759 48759 SINGLE
XIS:TIME 8 8 97518 48759 SINGLE
XIS:EXP_CENT_AETIME 8 8 97518 48759 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 48761 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.040 0.018 0.058 2.93
[ 2] XISreadExp 0.022 0.028 0.050 2.53
[ 3] XISreadEvent 0.721 0.046 0.767 38.76
[ 4] XIStime 0.250 0.041 0.291 14.70
[ 5] XISeditEventFits 0.734 0.063 0.797 40.27
(others) 0.007 0.009 0.016 0.81
--------------------------------------------------------------------------
TOTAL 1.774 0.205 1.979 100.00
-> xistime successful on ae803005010xi3_1_5x5n066.sff.infile,f,a,"ae803005010xi3_1_5x5n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_1_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 0
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 468.60 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 545.70 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 736.10 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 805.20 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 788.85 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 813.15 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 48759 events )
... 10% ( 4875 / 48759 events )
... 20% ( 9750 / 48759 events )
... 30% ( 14625 / 48759 events )
... 40% ( 19500 / 48759 events )
... 50% ( 24375 / 48759 events )
... 60% ( 29250 / 48759 events )
... 70% ( 34125 / 48759 events )
... 80% ( 39000 / 48759 events )
... 90% ( 43875 / 48759 events )
... 100% ( 48759 / 48759 events )
xisEventFitsUtil: rename ./fileLpbZri-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 48761
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 48760/48761
[ 2] XISreadExp version 1.6
| OK: 48760/48760
[ 3] XISreadEvent version 2.7
| OK: 48759/48760 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 48759/48759
[ 5] XISeditEventFits version 2.1
| OK: 48759/48759
GET: 48759
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
48760 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
48760 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
48760 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
48759 : XIScoord:ENTRY
48759 : XIScoord:OK
1 : XISeditEventFits:BEGIN
48759 : XISeditEventFits:ENTRY
48759 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 48759 97518 SINGLE
XIS:RAWX 4 4 48759 97518 SINGLE
XIS:RAWY 4 4 48759 97518 SINGLE
XIS:ACTX 4 4 97518 48759 SINGLE
XIS:ACTY 4 4 97518 48759 SINGLE
XIS:DETX 4 4 97518 48759 SINGLE
XIS:DETY 4 4 97518 48759 SINGLE
XIS:FOCX 4 4 97518 48759 SINGLE
XIS:FOCY 4 4 97518 48759 SINGLE
XIS:X 4 4 97518 48759 SINGLE
XIS:Y 4 4 97518 48759 SINGLE
XIS:STATUS 4 4 48759 48759 SINGLE
XIS:PHAS 100 100 48759 48759 SINGLE
XIS:PHANOCTI 4 4 48759 48759 SINGLE
XIS:PHA 4 4 48759 48759 SINGLE
XIS:PI 4 4 48759 48759 SINGLE
XIS:GRADE 4 4 48759 48759 SINGLE
XIS:AEDATE 4 4 48759 48759 FAMILY
XIS:EXPTIME 4 4 48759 48759 FAMILY
XIS:EXPTIME_AETIME 8 8 48759 48759 SINGLE
XIS:S_TIME 8 8 48759 48759 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 48759 48759 FAMILY
XIS:EVENT_SEQ_NO 4 4 48759 48759 SINGLE
XIS:TIME 8 8 48759 97518 SINGLE
XIS:EXP_CENT_AETIME 8 8 48759 48759 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 48761 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.039 0.026 0.065 3.04
[ 2] XISreadExp 0.017 0.011 0.028 1.31
[ 3] XISreadEvent 0.807 0.041 0.848 39.63
[ 4] XIScoord 0.333 0.038 0.371 17.34
[ 5] XISeditEventFits 0.728 0.079 0.807 37.71
(others) 0.016 0.005 0.021 0.98
--------------------------------------------------------------------------
TOTAL 1.940 0.200 2.140 100.00
-> xiscoord successful on ae803005010xi3_1_5x5n066.sff.infile,f,a,"ae803005010xi3_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_1_5x5n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 48759 events )
... 10% ( 4875 / 48759 events )
... 20% ( 9750 / 48759 events )
... 30% ( 14625 / 48759 events )
... 40% ( 19500 / 48759 events )
... 50% ( 24375 / 48759 events )
... 60% ( 29250 / 48759 events )
... 70% ( 34125 / 48759 events )
... 80% ( 39000 / 48759 events )
... 90% ( 43875 / 48759 events )
... 100% ( 48759 / 48759 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 792 1.62
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 1997 4.10
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 526 1.08
B8 256 1PIX_FROM_SEGBOUNDARY 266 0.55
B9 512 SCI_3rd_TRAILING_ROW 492 1.01
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 2446 5.02
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 529 1.08
B16 65536 CALMASK 5898 12.10
B17 131072 SEGBOUNDARY 897 1.84
B18 262144 SCI_2nd_TRAILING_ROW 516 1.06
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 2852 5.85
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 10507 21.55
B29 536870912 SCI_TRAILING_ROW 10309 21.14
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 8 0.02
### 0 CLEAN_ZERO 18819 38.60
--------------------------------------------------------------
+++ 4294967295 SUM 56854 116.60
::: 524287 SAFE(B0-18) 26347 54.04
>>> 4294967295 TOTAL 48759 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileNSExBJ-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 48761
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 48760/48761
[ 2] XISreadExp version 1.6
| OK: 48760/48760
[ 3] XISreadEvent version 2.7
| OK: 48759/48760 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 48759/48759
[ 5] XISeditEventFits version 2.1
| OK: 48759/48759
GET: 48759
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
48760 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
48760 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
48760 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
48759 : XISputPixelQuality:ENTRY
48759 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
48759 : XISeditEventFits:ENTRY
48759 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 48759 48759 SINGLE
XIS:RAWX 4 4 48759 48759 SINGLE
XIS:RAWY 4 4 48759 97518 SINGLE
XIS:ACTX 4 4 48759 97518 SINGLE
XIS:ACTY 4 4 48759 97518 SINGLE
XIS:DETX 4 4 48759 48759 SINGLE
XIS:DETY 4 4 48759 48759 SINGLE
XIS:FOCX 4 4 48759 48759 SINGLE
XIS:FOCY 4 4 48759 48759 SINGLE
XIS:X 4 4 48759 48759 SINGLE
XIS:Y 4 4 48759 48759 SINGLE
XIS:STATUS 4 4 97518 48759 SINGLE
XIS:PHAS 100 100 48759 48759 SINGLE
XIS:PHANOCTI 4 4 48759 48759 SINGLE
XIS:PHA 4 4 48759 48759 SINGLE
XIS:PI 4 4 48759 48759 SINGLE
XIS:GRADE 4 4 48759 48759 SINGLE
XIS:AEDATE 4 4 48759 48759 FAMILY
XIS:EXPTIME 4 4 48759 48759 FAMILY
XIS:EXPTIME_AETIME 8 8 48759 48759 SINGLE
XIS:S_TIME 8 8 48759 48759 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 48759 48759 FAMILY
XIS:EVENT_SEQ_NO 4 4 48759 48759 SINGLE
XIS:TIME 8 8 48759 97518 SINGLE
XIS:EXP_CENT_AETIME 8 8 48759 48759 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 48761 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.029 0.020 0.049 2.65
[ 2] XISreadExp 0.017 0.017 0.034 1.84
[ 3] XISreadEvent 0.724 0.033 0.757 40.94
[ 4] XISputPixelQuality 0.104 0.037 0.141 7.63
[ 5] XISeditEventFits 0.743 0.108 0.851 46.03
(others) 0.011 0.006 0.017 0.92
--------------------------------------------------------------------------
TOTAL 1.628 0.221 1.849 100.00
-> xisputpixelquality successful on ae803005010xi3_1_5x5n066.sff.infile,f,a,"ae803005010xi3_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi3_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_1_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi3_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi3_0.hk, S3_VDCHK18_CAL, nrows=5662
nvalid=5325 nrej=337 time=267336977.4 - 267532613.4 [s]
AE-temp: average=15.892 sigma=1.508 min=11.909 max=18.354 [degC]
Event... 1 (0)
... 0% ( 0 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 4875 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 9750 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 14625 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 19500 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 24375 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 29250 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 34125 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 39000 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 43875 / 48759 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 48759 / 48759 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filetEBQML-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 48761
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 48760/48761
[ 2] XISreadExp version 1.6
| OK: 48760/48760
[ 3] XISreadEvent version 2.7
| OK: 48759/48760 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 48759/48759
[ 5] XIStrailCorrection version 3.1
| OK: 48759/48759
[ 6] XISctiCorrection version 3.4
| OK: 48759/48759
[ 7] XISgrade version 3.3
| OK: 48759/48759
[ 8] XISpha2pi version 3.2
| OK: 48759/48759
[ 9] XISeditEventFits version 2.1
| OK: 48759/48759
GET: 48759
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
48760 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
48760 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
48760 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
48759 : XISpreparePHASCORR:ENTRY
48759 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
48759 : XIStrailCorrection:ENTRY
48759 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
48759 : XISctiCorrection:ENTRY
48759 : XISctiCorrection:OK
1 : XISgrade:BEGIN
48759 : XISgrade:ENTRY
48759 : XISgrade:OK
1 : XISpha2pi:BEGIN
48759 : XISpha2pi:ENTRY
48759 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
48759 : XISeditEventFits:ENTRY
48759 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 189/5000
buffer size : 120000
buffer used : 4768
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 195042 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 48759 243795 SINGLE
XIS:RAWX 4 4 48759 146277 SINGLE
XIS:RAWY 4 4 48759 97518 SINGLE
XIS:ACTX 4 4 48759 48759 SINGLE
XIS:ACTY 4 4 48759 146277 SINGLE
XIS:DETX 4 4 48759 48759 SINGLE
XIS:DETY 4 4 48759 48759 SINGLE
XIS:FOCX 4 4 48759 48759 SINGLE
XIS:FOCY 4 4 48759 48759 SINGLE
XIS:X 4 4 48759 48759 SINGLE
XIS:Y 4 4 48759 48759 SINGLE
XIS:STATUS 4 4 48759 48759 SINGLE
XIS:PHAS 100 100 48759 97518 SINGLE
XIS:PHANOCTI 4 4 97518 48759 SINGLE
XIS:PHA 4 4 97518 48759 SINGLE
XIS:PI 4 4 97518 48759 SINGLE
XIS:GRADE 4 4 97518 48759 SINGLE
XIS:AEDATE 4 4 48759 48759 FAMILY
XIS:EXPTIME 4 4 48759 48759 FAMILY
XIS:EXPTIME_AETIME 8 8 48759 48759 SINGLE
XIS:S_TIME 8 8 48759 48759 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 48759 48759 FAMILY
XIS:EVENT_SEQ_NO 4 4 48759 48759 SINGLE
XIS:TIME 8 8 48759 243795 SINGLE
XIS:EXP_CENT_AETIME 8 8 48759 48759 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 48761 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 97518 48759 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 48759 48759 SINGLE
XIS:PHASCORR 200 200 146277 146277 SINGLE
XIS:PHA:DOUBLE 8 8 48759 48759 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.051 0.025 0.076 1.31
[ 2] XISreadExp 0.013 0.030 0.043 0.74
[ 3] XISreadEvent 0.828 0.041 0.869 14.96
[ 4] XISpreparePHASCORR 0.048 0.020 0.068 1.17
[ 5] XIStrailCorrection 0.132 0.030 0.162 2.79
[ 6] XISctiCorrection 2.595 0.821 3.416 58.80
[ 7] XISgrade 0.199 0.027 0.226 3.89
[ 8] XISpha2pi 0.142 0.020 0.162 2.79
[ 9] XISeditEventFits 0.681 0.082 0.763 13.13
(others) 0.019 0.006 0.025 0.43
--------------------------------------------------------------------------
TOTAL 4.707 1.102 5.809 100.00
-> xispi successful on ae803005010xi3_1_5x5n066.sff.infile,f,a,"ae803005010xi3_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi3_1_5x5n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_5x5n066.sff
OUTFILE ae803005010xi3_1_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi3_1_5x5n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 48759 events )
... 10% ( 4875 / 48759 events )
saturated frame, t=267337940.930 - 267337948.930 287 (837/1124) seg=1111
... 20% ( 9750 / 48759 events )
saturated frame, t=267337980.930 - 267337988.930 413 (832/1245) seg=1111
saturated frame, t=267337988.930 - 267337996.930 2219 (810/3029) seg=1111
saturated frame, t=267337996.930 - 267338004.930 2087 (809/2896) seg=1111
saturated frame, t=267338004.930 - 267338012.930 2073 (808/2881) seg=1111
saturated frame, t=267338012.930 - 267338020.930 2042 (808/2850) seg=1111
saturated frame, t=267338020.930 - 267338028.930 2035 (808/2843) seg=1111
... 30% ( 14625 / 48759 events )
saturated frame, t=267338028.930 - 267338036.930 1991 (808/2799) seg=1111
saturated frame, t=267338036.930 - 267338044.930 2043 (808/2851) seg=1111
saturated frame, t=267338044.930 - 267338052.930 1622 (819/2441) seg=1111
... 40% ( 19500 / 48759 events )
... 50% ( 24375 / 48759 events )
... 60% ( 29250 / 48759 events )
... 70% ( 34125 / 48759 events )
frame time jump, t=267341612.930 - 267343060.930 by 1448.000 s
... 80% ( 39000 / 48759 events )
saturated frame, t=267343700.930 - 267343708.930 114 (844/958) seg=1111
... 90% ( 43875 / 48759 events )
... 100% ( 48759 / 48759 events )
XIScheckEventNo: GTI file 'ae803005010xi3_1_5x5n066.gti' created
N_FRAMES = 900 / number of frames in the input event file
N_TESTED = 900 / number of non-zero frames tested
N_PASSED = 889 / number of frames passed the test
N_T_JUMP = 1 / number of frames detected time jump
N_SATURA = 11 / number of frames telemetry saturated
T_TESTED = 7200.000000 / exposure of non-zero frames tested
T_PASSED = 7112.000000 / exposure of frames passed the test
T_T_JUMP = 1447.999788 / loss of exposure due to time jump
T_SATURA = 88.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 901
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 900/901
[ 2] XISreadExp version 1.6
| OK: 900/900
[ 3] XISreadEvent version 2.7 <------- LOOP: 48759
| OK: 48759/49659 -------> SKIP: 900
[ 4] XIScheckEventNo version 1.2
| OK: 48759/48759
GET: 48759
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
900 : XISreadFrame:ENTRY
900 : XISreadFrame:OK
1 : XISreadExp:BEGIN
900 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
49659 : XISreadEvent:ENTRY
49658 : XISreadEvent:OK
900 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
48759 : XIScheckEventNo:ENTRY
48759 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 242/5000
buffer size : 120000
buffer used : 6432
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 900 49659 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 900 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 900 49659 SINGLE
XIS:FRAMES:S_TIME 8 8 900 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 900 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 900 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 900 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 900 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 900 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 900 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 900 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 900 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 900 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 900 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 900 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 900 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 900 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 900 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 900 900 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 900 0 SINGLE
XIS:FRAMES:BIAS 16 16 900 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 900 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 900 0 SINGLE
XIS:FRAMES:AEDATE 4 4 900 49659 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 900 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 900 48759 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 900 900 SINGLE
XIS:FRAMES:TIME 8 8 900 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 48759 48759 SINGLE
XIS:RAWX 4 4 48759 0 SINGLE
XIS:RAWY 4 4 48759 0 SINGLE
XIS:ACTX 4 4 48759 0 SINGLE
XIS:ACTY 4 4 48759 0 SINGLE
XIS:DETX 4 4 48759 0 SINGLE
XIS:DETY 4 4 48759 0 SINGLE
XIS:FOCX 4 4 48759 0 SINGLE
XIS:FOCY 4 4 48759 0 SINGLE
XIS:X 4 4 48759 0 SINGLE
XIS:Y 4 4 48759 0 SINGLE
XIS:STATUS 4 4 48759 0 SINGLE
XIS:PHAS 100 100 48759 0 SINGLE
XIS:PHANOCTI 4 4 48759 0 SINGLE
XIS:PHA 4 4 48759 0 SINGLE
XIS:PI 4 4 48759 0 SINGLE
XIS:GRADE 4 4 48759 0 SINGLE
XIS:AEDATE 4 4 48759 49658 FAMILY
XIS:EXPTIME 4 4 48759 49658 FAMILY
XIS:EXPTIME_AETIME 8 8 48759 0 SINGLE
XIS:S_TIME 8 8 48759 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 48759 49658 FAMILY
XIS:EVENT_SEQ_NO 4 4 48759 49658 SINGLE
XIS:TIME 8 8 48759 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 48759 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.189 0.006 0.195 14.28
[ 2] XISreadExp 0.003 0.000 0.003 0.22
[ 3] XISreadEvent 1.061 0.030 1.091 79.87
[ 4] XIScheckEventNo 0.026 0.031 0.057 4.17
(others) 0.014 0.006 0.020 1.46
--------------------------------------------------------------------------
TOTAL 1.293 0.073 1.366 100.00
-> xisgtigen successful on ae803005010xi3_1_5x5n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi3_2_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi3_2_3x3n066.fff.infile,f,a,"ae803005010xi3_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_2_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 345347 events )
... 10% ( 34534 / 345347 events )
... 20% ( 69068 / 345347 events )
Event... 100001 (100000)
... 30% ( 103602 / 345347 events )
... 40% ( 138136 / 345347 events )
... 50% ( 172670 / 345347 events )
Event... 200001 (200000)
... 60% ( 207204 / 345347 events )
... 70% ( 241738 / 345347 events )
... 80% ( 276272 / 345347 events )
Event... 300001 (300000)
... 90% ( 310806 / 345347 events )
... 100% ( 345347 / 345347 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267438812.917220 / time start
TSTOP = 267529548.905402 / time stop
TELAPASE = 90735.988182 / elapsed time = TSTOP - TSTART
ONTIME = 43903.994233 / on time = sum of all GTIs
LIVETIME = 43903.994233 / on-source time corrected for CCD exposure
EXPOSURE = 43903.994233 / exposure time
xisEventFitsUtil: rename ./fileLhCdjP-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 345349
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 345348/345349
[ 2] XISreadExp version 1.6
| OK: 345348/345348
[ 3] XISreadEvent version 2.7
| OK: 345347/345348 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 345347/345347
[ 5] XISeditEventFits version 2.1
| OK: 345347/345347
GET: 345347
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
345348 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
345348 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
345348 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
345347 : XIStime:ENTRY
345347 : XIStime:OK
1 : XISeditEventFits:BEGIN
345347 : XISeditEventFits:ENTRY
345347 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 345347 345347 SINGLE
XIS:RAWX 4 4 345347 345347 SINGLE
XIS:RAWY 4 4 345347 345347 SINGLE
XIS:ACTX 4 4 345347 345347 SINGLE
XIS:ACTY 4 4 345347 345347 SINGLE
XIS:DETX 4 4 345347 345347 SINGLE
XIS:DETY 4 4 345347 345347 SINGLE
XIS:FOCX 4 4 345347 345347 SINGLE
XIS:FOCY 4 4 345347 345347 SINGLE
XIS:X 4 4 345347 345347 SINGLE
XIS:Y 4 4 345347 345347 SINGLE
XIS:STATUS 4 4 345347 345347 SINGLE
XIS:PHAS 36 36 345347 345347 SINGLE
XIS:PHANOCTI 4 4 345347 345347 SINGLE
XIS:PHA 4 4 345347 345347 SINGLE
XIS:PI 4 4 345347 345347 SINGLE
XIS:GRADE 4 4 345347 345347 SINGLE
XIS:P_OUTER_MOST 4 4 345347 345347 SINGLE
XIS:SUM_OUTER_MOST 4 4 345347 345347 SINGLE
XIS:AEDATE 4 4 690694 345347 FAMILY
XIS:EXPTIME 4 4 345347 690694 FAMILY
XIS:EXPTIME_AETIME 8 8 690694 345347 SINGLE
XIS:S_TIME 8 8 345347 690694 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 345347 690694 FAMILY
XIS:EVENT_SEQ_NO 4 4 345347 345347 SINGLE
XIS:TIME 8 8 690694 345347 SINGLE
XIS:EXP_CENT_AETIME 8 8 690694 345347 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 345349 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.230 0.199 0.429 3.24
[ 2] XISreadExp 0.124 0.164 0.288 2.18
[ 3] XISreadEvent 5.522 0.357 5.879 44.44
[ 4] XIStime 0.846 0.186 1.032 7.80
[ 5] XISeditEventFits 5.154 0.428 5.582 42.20
(others) 0.009 0.009 0.018 0.14
--------------------------------------------------------------------------
TOTAL 11.885 1.343 13.228 100.00
-> xistime successful on ae803005010xi3_2_3x3n066.sff.infile,f,a,"ae803005010xi3_2_3x3n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_2_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 468.60 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 545.70 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 736.10 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 805.20 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 788.85 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 813.15 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 345347 events )
... 10% ( 34534 / 345347 events )
... 20% ( 69068 / 345347 events )
Event... 100001 (100000)
... 30% ( 103602 / 345347 events )
... 40% ( 138136 / 345347 events )
... 50% ( 172670 / 345347 events )
Event... 200001 (200000)
... 60% ( 207204 / 345347 events )
... 70% ( 241738 / 345347 events )
... 80% ( 276272 / 345347 events )
Event... 300001 (300000)
... 90% ( 310806 / 345347 events )
... 100% ( 345347 / 345347 events )
xisEventFitsUtil: rename ./fileXkQMqt-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 345349
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 345348/345349
[ 2] XISreadExp version 1.6
| OK: 345348/345348
[ 3] XISreadEvent version 2.7
| OK: 345347/345348 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 345347/345347
[ 5] XISeditEventFits version 2.1
| OK: 345347/345347
GET: 345347
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
345348 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
345348 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
345348 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
345347 : XIScoord:ENTRY
345347 : XIScoord:OK
1 : XISeditEventFits:BEGIN
345347 : XISeditEventFits:ENTRY
345347 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 345347 690694 SINGLE
XIS:RAWX 4 4 345347 690694 SINGLE
XIS:RAWY 4 4 345347 690694 SINGLE
XIS:ACTX 4 4 690694 345347 SINGLE
XIS:ACTY 4 4 690694 345347 SINGLE
XIS:DETX 4 4 690694 345347 SINGLE
XIS:DETY 4 4 690694 345347 SINGLE
XIS:FOCX 4 4 690694 345347 SINGLE
XIS:FOCY 4 4 690694 345347 SINGLE
XIS:X 4 4 690694 345347 SINGLE
XIS:Y 4 4 690694 345347 SINGLE
XIS:STATUS 4 4 345347 345347 SINGLE
XIS:PHAS 36 36 345347 345347 SINGLE
XIS:PHANOCTI 4 4 345347 345347 SINGLE
XIS:PHA 4 4 345347 345347 SINGLE
XIS:PI 4 4 345347 345347 SINGLE
XIS:GRADE 4 4 345347 345347 SINGLE
XIS:P_OUTER_MOST 4 4 345347 345347 SINGLE
XIS:SUM_OUTER_MOST 4 4 345347 345347 SINGLE
XIS:AEDATE 4 4 345347 345347 FAMILY
XIS:EXPTIME 4 4 345347 345347 FAMILY
XIS:EXPTIME_AETIME 8 8 345347 345347 SINGLE
XIS:S_TIME 8 8 345347 345347 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 345347 345347 FAMILY
XIS:EVENT_SEQ_NO 4 4 345347 345347 SINGLE
XIS:TIME 8 8 345347 690694 SINGLE
XIS:EXP_CENT_AETIME 8 8 345347 345347 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 345349 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.304 0.157 0.461 3.05
[ 2] XISreadExp 0.120 0.141 0.261 1.73
[ 3] XISreadEvent 5.776 0.242 6.018 39.81
[ 4] XIScoord 2.302 0.199 2.501 16.54
[ 5] XISeditEventFits 5.369 0.483 5.852 38.72
(others) 0.016 0.007 0.023 0.15
--------------------------------------------------------------------------
TOTAL 13.887 1.229 15.116 100.00
-> xiscoord successful on ae803005010xi3_2_3x3n066.sff.infile,f,a,"ae803005010xi3_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_2_3x3n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 345347 events )
... 10% ( 34534 / 345347 events )
... 20% ( 69068 / 345347 events )
Event... 100001 (100000)
... 30% ( 103602 / 345347 events )
... 40% ( 138136 / 345347 events )
... 50% ( 172670 / 345347 events )
Event... 200001 (200000)
... 60% ( 207204 / 345347 events )
... 70% ( 241738 / 345347 events )
... 80% ( 276272 / 345347 events )
Event... 300001 (300000)
... 90% ( 310806 / 345347 events )
... 100% ( 345347 / 345347 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 5377 1.56
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 14663 4.25
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 3356 0.97
B8 256 1PIX_FROM_SEGBOUNDARY 1898 0.55
B9 512 SCI_3rd_TRAILING_ROW 3551 1.03
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 16085 4.66
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 3792 1.10
B16 65536 CALMASK 44795 12.97
B17 131072 SEGBOUNDARY 7149 2.07
B18 262144 SCI_2nd_TRAILING_ROW 3513 1.02
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 14249 4.13
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 66751 19.33
B29 536870912 SCI_TRAILING_ROW 68872 19.94
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 117 0.03
### 0 CLEAN_ZERO 141311 40.92
--------------------------------------------------------------
+++ 4294967295 SUM 395479 114.52
::: 524287 SAFE(B0-18) 202425 58.61
>>> 4294967295 TOTAL 345347 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileKquXTn-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 345349
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 345348/345349
[ 2] XISreadExp version 1.6
| OK: 345348/345348
[ 3] XISreadEvent version 2.7
| OK: 345347/345348 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 345347/345347
[ 5] XISeditEventFits version 2.1
| OK: 345347/345347
GET: 345347
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
345348 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
345348 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
345348 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
345347 : XISputPixelQuality:ENTRY
345347 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
345347 : XISeditEventFits:ENTRY
345347 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 345347 345347 SINGLE
XIS:RAWX 4 4 345347 345347 SINGLE
XIS:RAWY 4 4 345347 690694 SINGLE
XIS:ACTX 4 4 345347 690694 SINGLE
XIS:ACTY 4 4 345347 690694 SINGLE
XIS:DETX 4 4 345347 345347 SINGLE
XIS:DETY 4 4 345347 345347 SINGLE
XIS:FOCX 4 4 345347 345347 SINGLE
XIS:FOCY 4 4 345347 345347 SINGLE
XIS:X 4 4 345347 345347 SINGLE
XIS:Y 4 4 345347 345347 SINGLE
XIS:STATUS 4 4 690694 345347 SINGLE
XIS:PHAS 36 36 345347 345347 SINGLE
XIS:PHANOCTI 4 4 345347 345347 SINGLE
XIS:PHA 4 4 345347 345347 SINGLE
XIS:PI 4 4 345347 345347 SINGLE
XIS:GRADE 4 4 345347 345347 SINGLE
XIS:P_OUTER_MOST 4 4 345347 345347 SINGLE
XIS:SUM_OUTER_MOST 4 4 345347 345347 SINGLE
XIS:AEDATE 4 4 345347 345347 FAMILY
XIS:EXPTIME 4 4 345347 345347 FAMILY
XIS:EXPTIME_AETIME 8 8 345347 345347 SINGLE
XIS:S_TIME 8 8 345347 345347 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 345347 345347 FAMILY
XIS:EVENT_SEQ_NO 4 4 345347 345347 SINGLE
XIS:TIME 8 8 345347 690694 SINGLE
XIS:EXP_CENT_AETIME 8 8 345347 345347 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 345349 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.226 0.196 0.422 3.26
[ 2] XISreadExp 0.118 0.156 0.274 2.12
[ 3] XISreadEvent 5.546 0.224 5.770 44.58
[ 4] XISputPixelQuality 0.522 0.183 0.705 5.45
[ 5] XISeditEventFits 5.222 0.532 5.754 44.46
(others) 0.010 0.008 0.018 0.14
--------------------------------------------------------------------------
TOTAL 11.644 1.299 12.943 100.00
-> xisputpixelquality successful on ae803005010xi3_2_3x3n066.sff.infile,f,a,"ae803005010xi3_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi3_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_2_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi3_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi3_0.hk, S3_VDCHK18_CAL, nrows=5662
nvalid=5325 nrej=337 time=267336977.4 - 267532613.4 [s]
AE-temp: average=15.892 sigma=1.508 min=11.909 max=18.354 [degC]
Event... 1 (0)
... 0% ( 0 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 34534 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 69068 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 103602 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 138136 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 172670 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 207204 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 241738 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 276272 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 310806 / 345347 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 345347 / 345347 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileRt0NOP-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 345349
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 345348/345349
[ 2] XISreadExp version 1.6
| OK: 345348/345348
[ 3] XISreadEvent version 2.7
| OK: 345347/345348 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 345347/345347
[ 5] XIStrailCorrection version 3.1
| OK: 345347/345347
[ 6] XISctiCorrection version 3.4
| OK: 345347/345347
[ 7] XISgrade version 3.3
| OK: 345347/345347
[ 8] XISpha2pi version 3.2
| OK: 345347/345347
[ 9] XISeditEventFits version 2.1
| OK: 345347/345347
GET: 345347
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
345348 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
345348 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
345348 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
345347 : XISpreparePHASCORR:ENTRY
345347 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
345347 : XIStrailCorrection:ENTRY
345347 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
345347 : XISctiCorrection:ENTRY
345347 : XISctiCorrection:OK
1 : XISgrade:BEGIN
345347 : XISgrade:ENTRY
345347 : XISgrade:OK
1 : XISpha2pi:BEGIN
345347 : XISpha2pi:ENTRY
345347 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
345347 : XISeditEventFits:ENTRY
345347 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 1381394 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 345347 1726735 SINGLE
XIS:RAWX 4 4 345347 1036041 SINGLE
XIS:RAWY 4 4 345347 690694 SINGLE
XIS:ACTX 4 4 345347 345347 SINGLE
XIS:ACTY 4 4 345347 1036041 SINGLE
XIS:DETX 4 4 345347 345347 SINGLE
XIS:DETY 4 4 345347 345347 SINGLE
XIS:FOCX 4 4 345347 345347 SINGLE
XIS:FOCY 4 4 345347 345347 SINGLE
XIS:X 4 4 345347 345347 SINGLE
XIS:Y 4 4 345347 345347 SINGLE
XIS:STATUS 4 4 345347 345347 SINGLE
XIS:PHAS 36 36 345347 690694 SINGLE
XIS:PHANOCTI 4 4 690694 345347 SINGLE
XIS:PHA 4 4 690694 345347 SINGLE
XIS:PI 4 4 690694 345347 SINGLE
XIS:GRADE 4 4 690694 345347 SINGLE
XIS:P_OUTER_MOST 4 4 345347 690694 SINGLE
XIS:SUM_OUTER_MOST 4 4 345347 690694 SINGLE
XIS:AEDATE 4 4 345347 345347 FAMILY
XIS:EXPTIME 4 4 345347 345347 FAMILY
XIS:EXPTIME_AETIME 8 8 345347 345347 SINGLE
XIS:S_TIME 8 8 345347 345347 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 345347 345347 FAMILY
XIS:EVENT_SEQ_NO 4 4 345347 345347 SINGLE
XIS:TIME 8 8 345347 1726735 SINGLE
XIS:EXP_CENT_AETIME 8 8 345347 345347 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 345349 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 690694 345347 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 345347 345347 SINGLE
XIS:PHASCORR 72 72 1036041 1036041 SINGLE
XIS:PHA:DOUBLE 8 8 345347 345347 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.302 0.188 0.490 1.46
[ 2] XISreadExp 0.102 0.163 0.265 0.79
[ 3] XISreadEvent 5.734 0.276 6.010 17.97
[ 4] XISpreparePHASCORR 0.283 0.160 0.443 1.32
[ 5] XIStrailCorrection 0.707 0.164 0.871 2.60
[ 6] XISctiCorrection 12.232 4.980 17.212 51.45
[ 7] XISgrade 1.156 0.150 1.306 3.90
[ 8] XISpha2pi 0.768 0.167 0.935 2.79
[ 9] XISeditEventFits 5.453 0.441 5.894 17.62
(others) 0.021 0.006 0.027 0.08
--------------------------------------------------------------------------
TOTAL 26.758 6.695 33.453 100.00
-> xispi successful on ae803005010xi3_2_3x3n066.sff.infile,f,a,"ae803005010xi3_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi3_2_3x3n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_3x3n066.sff
OUTFILE ae803005010xi3_2_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi3_2_3x3n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 345347 events )
frame time jump, t=267439756.917 - 267441908.917 by 2152.000 s
frame time jump, t=267446268.916 - 267447660.916 by 1392.000 s
... 10% ( 34534 / 345347 events )
frame time jump, t=267451276.916 - 267453404.915 by 2128.000 s
... 20% ( 69068 / 345347 events )
frame time jump, t=267457028.915 - 267459172.915 by 2144.000 s
frame time jump, t=267462772.914 - 267464916.914 by 2144.000 s
... 30% ( 103602 / 345347 events )
frame time jump, t=267468532.913 - 267470676.913 by 2144.000 s
... 40% ( 138136 / 345347 events )
frame time jump, t=267474292.913 - 267476420.912 by 2128.000 s
... 50% ( 172670 / 345347 events )
frame time jump, t=267480036.912 - 267482180.912 by 2144.000 s
frame time jump, t=267484460.911 - 267485100.911 by 640.000 s
frame time jump, t=267485236.911 - 267485500.911 by 264.000 s
frame time jump, t=267485780.911 - 267487924.911 by 2144.000 s
... 60% ( 207204 / 345347 events )
frame time jump, t=267490068.911 - 267491252.910 by 1184.000 s
frame time jump, t=267491388.910 - 267493684.910 by 2296.000 s
frame time jump, t=267495980.910 - 267497356.910 by 1376.000 s
frame time jump, t=267497492.910 - 267497756.910 by 264.000 s
frame time jump, t=267497988.910 - 267498844.909 by 856.000 s
... 70% ( 241738 / 345347 events )
saturated frame, t=267499076.909 - 267499084.909 2796 (289/3085) seg=1111
saturated frame, t=267499084.909 - 267499092.909 2615 (287/2902) seg=1111
saturated frame, t=267499092.909 - 267499100.909 2578 (286/2864) seg=1111
saturated frame, t=267499100.909 - 267499108.909 2605 (286/2891) seg=1111
saturated frame, t=267499108.909 - 267499116.909 1813 (1062/2875) seg=1111
saturated frame, t=267499116.909 - 267499124.909 1066 (1809/2875) seg=1111
frame time jump, t=267499124.909 - 267518220.907 by 19095.997 s
frame time jump, t=267520348.907 - 267521580.906 by 1232.000 s
saturated frame, t=267521996.906 - 267522004.906 459 (755/1214) seg=1111
saturated frame, t=267522004.906 - 267522012.906 1649 (749/2398) seg=1111
saturated frame, t=267522012.906 - 267522020.906 2231 (746/2977) seg=1111
... 80% ( 276272 / 345347 events )
frame time jump, t=267526452.906 - 267527556.906 by 1104.000 s
saturated frame, t=267527588.906 - 267527596.906 1819 (848/2667) seg=1111
saturated frame, t=267527596.906 - 267527604.906 1823 (848/2671) seg=1111
saturated frame, t=267527604.906 - 267527612.906 2014 (848/2862) seg=1111
saturated frame, t=267527612.906 - 267527620.906 1406 (850/2256) seg=1111
saturated frame, t=267527684.906 - 267527692.906 1943 (848/2791) seg=1111
saturated frame, t=267527692.906 - 267527700.906 1970 (848/2818) seg=1111
saturated frame, t=267527708.906 - 267527716.906 1472 (850/2322) seg=1111
saturated frame, t=267527716.906 - 267527724.906 2194 (848/3042) seg=1111
saturated frame, t=267527724.906 - 267527732.906 1965 (848/2813) seg=1111
saturated frame, t=267527740.906 - 267527748.906 1101 (849/1950) seg=1111
saturated frame, t=267527756.906 - 267527764.906 2199 (848/3047) seg=1111
saturated frame, t=267527764.906 - 267527772.906 1876 (848/2724) seg=1111
saturated frame, t=267527772.906 - 267527780.906 1780 (848/2628) seg=1111
saturated frame, t=267527780.906 - 267527788.906 2072 (848/2920) seg=1111
saturated frame, t=267527788.906 - 267527796.906 2034 (848/2882) seg=1111
saturated frame, t=267527796.906 - 267527804.906 1775 (848/2623) seg=1111
saturated frame, t=267527804.906 - 267527812.906 1901 (848/2749) seg=1111
saturated frame, t=267527812.906 - 267527820.906 1887 (848/2735) seg=1111
saturated frame, t=267527820.906 - 267527828.906 1908 (848/2756) seg=1111
saturated frame, t=267527828.906 - 267527836.906 1951 (848/2799) seg=1111
saturated frame, t=267527836.906 - 267527844.906 924 (848/1772) seg=1111
saturated frame, t=267527844.906 - 267527852.906 237 (853/1090) seg=1111
saturated frame, t=267527852.906 - 267527860.906 2143 (848/2991) seg=1111
saturated frame, t=267527860.906 - 267527868.906 1712 (848/2560) seg=1111
saturated frame, t=267527868.906 - 267527876.906 1888 (848/2736) seg=1111
saturated frame, t=267527876.906 - 267527884.906 1819 (848/2667) seg=1111
saturated frame, t=267527884.906 - 267527892.906 2078 (848/2926) seg=1111
saturated frame, t=267527892.906 - 267527900.906 2134 (848/2982) seg=1111
saturated frame, t=267527900.906 - 267527908.906 2158 (849/3007) seg=1111
... 90% ( 310806 / 345347 events )
saturated frame, t=267527908.906 - 267527916.906 2153 (848/3001) seg=1111
saturated frame, t=267527916.906 - 267527924.906 2269 (848/3117) seg=1111
saturated frame, t=267527924.906 - 267527932.906 2262 (848/3110) seg=1111
saturated frame, t=267527932.906 - 267527940.906 2140 (848/2988) seg=1111
saturated frame, t=267527940.906 - 267527948.906 1786 (848/2634) seg=1111
saturated frame, t=267527980.906 - 267527988.906 1801 (849/2650) seg=1111
saturated frame, t=267527988.906 - 267527996.906 2239 (848/3087) seg=1111
saturated frame, t=267527996.906 - 267528004.906 2324 (848/3172) seg=1111
saturated frame, t=267528004.906 - 267528012.906 2205 (848/3053) seg=1111
saturated frame, t=267528012.906 - 267528020.906 2121 (848/2969) seg=1111
saturated frame, t=267528028.906 - 267528036.906 1989 (848/2837) seg=1111
saturated frame, t=267528036.906 - 267528044.906 1547 (849/2396) seg=1111
saturated frame, t=267528044.906 - 267528052.906 2088 (848/2936) seg=1111
saturated frame, t=267528052.906 - 267528060.906 2189 (848/3037) seg=1111
saturated frame, t=267528060.906 - 267528068.906 2116 (848/2964) seg=1111
saturated frame, t=267528076.906 - 267528084.906 1952 (848/2800) seg=1111
saturated frame, t=267528084.906 - 267528092.906 2080 (848/2928) seg=1111
saturated frame, t=267528092.906 - 267528100.906 2046 (848/2894) seg=1111
saturated frame, t=267528100.906 - 267528108.906 2109 (848/2957) seg=1111
saturated frame, t=267528108.906 - 267528116.906 2154 (848/3002) seg=1111
saturated frame, t=267528116.906 - 267528124.906 2204 (848/3052) seg=1111
saturated frame, t=267528124.906 - 267528132.906 2195 (848/3043) seg=1111
saturated frame, t=267528140.906 - 267528148.906 2070 (848/2918) seg=1111
saturated frame, t=267528148.906 - 267528156.906 2216 (847/3063) seg=1111
saturated frame, t=267528156.906 - 267528164.906 2133 (849/2982) seg=1111
saturated frame, t=267528164.906 - 267528172.906 2155 (848/3003) seg=1111
saturated frame, t=267528172.906 - 267528180.906 2288 (848/3136) seg=1111
saturated frame, t=267528180.906 - 267528188.906 1131 (849/1980) seg=1111
... 100% ( 345347 / 345347 events )
XIScheckEventNo: GTI file 'ae803005010xi3_2_3x3n066.gti' created
N_FRAMES = 5488 / number of frames in the input event file
N_TESTED = 5488 / number of non-zero frames tested
N_PASSED = 5422 / number of frames passed the test
N_T_JUMP = 19 / number of frames detected time jump
N_SATURA = 66 / number of frames telemetry saturated
T_TESTED = 43904.000000 / exposure of non-zero frames tested
T_PASSED = 43376.000000 / exposure of frames passed the test
T_T_JUMP = 46831.993949 / loss of exposure due to time jump
T_SATURA = 528.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5489
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5488/5489
[ 2] XISreadExp version 1.6
| OK: 5488/5488
[ 3] XISreadEvent version 2.7 <------- LOOP: 345347
| OK: 345347/350835 -------> SKIP: 5488
[ 4] XIScheckEventNo version 1.2
| OK: 345347/345347
GET: 345347
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5488 : XISreadFrame:ENTRY
5488 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5488 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
350835 : XISreadEvent:ENTRY
350834 : XISreadEvent:OK
5488 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
345347 : XIScheckEventNo:ENTRY
345347 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 5488 350835 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 5488 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 5488 350835 SINGLE
XIS:FRAMES:S_TIME 8 8 5488 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 5488 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 5488 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 5488 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 5488 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 5488 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 5488 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 5488 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 5488 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 5488 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 5488 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 5488 5488 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 5488 0 SINGLE
XIS:FRAMES:BIAS 16 16 5488 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 5488 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 5488 0 SINGLE
XIS:FRAMES:AEDATE 4 4 5488 350835 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 5488 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 5488 345347 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 5488 5488 SINGLE
XIS:FRAMES:TIME 8 8 5488 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 345347 345347 SINGLE
XIS:RAWX 4 4 345347 0 SINGLE
XIS:RAWY 4 4 345347 0 SINGLE
XIS:ACTX 4 4 345347 0 SINGLE
XIS:ACTY 4 4 345347 0 SINGLE
XIS:DETX 4 4 345347 0 SINGLE
XIS:DETY 4 4 345347 0 SINGLE
XIS:FOCX 4 4 345347 0 SINGLE
XIS:FOCY 4 4 345347 0 SINGLE
XIS:X 4 4 345347 0 SINGLE
XIS:Y 4 4 345347 0 SINGLE
XIS:STATUS 4 4 345347 0 SINGLE
XIS:PHAS 36 36 345347 0 SINGLE
XIS:PHANOCTI 4 4 345347 0 SINGLE
XIS:PHA 4 4 345347 0 SINGLE
XIS:PI 4 4 345347 0 SINGLE
XIS:GRADE 4 4 345347 0 SINGLE
XIS:P_OUTER_MOST 4 4 345347 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 345347 0 SINGLE
XIS:AEDATE 4 4 345347 350834 FAMILY
XIS:EXPTIME 4 4 345347 350834 FAMILY
XIS:EXPTIME_AETIME 8 8 345347 0 SINGLE
XIS:S_TIME 8 8 345347 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 345347 350834 FAMILY
XIS:EVENT_SEQ_NO 4 4 345347 350834 SINGLE
XIS:TIME 8 8 345347 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 345347 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 1.279 0.013 1.292 13.89
[ 2] XISreadExp 0.005 0.002 0.007 0.08
[ 3] XISreadEvent 7.390 0.223 7.613 81.84
[ 4] XIScheckEventNo 0.173 0.198 0.371 3.99
(others) 0.012 0.007 0.019 0.20
--------------------------------------------------------------------------
TOTAL 8.859 0.443 9.302 100.00
-> xisgtigen successful on ae803005010xi3_2_3x3n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi3_2_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi3_2_5x5n066.fff.infile,f,a,"ae803005010xi3_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_2_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 94630 events )
... 10% ( 9463 / 94630 events )
... 20% ( 18926 / 94630 events )
... 30% ( 28389 / 94630 events )
... 40% ( 37852 / 94630 events )
... 50% ( 47315 / 94630 events )
... 60% ( 56778 / 94630 events )
... 70% ( 66241 / 94630 events )
... 80% ( 75704 / 94630 events )
... 90% ( 85167 / 94630 events )
... 100% ( 94630 / 94630 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267499124.909376 / time start
TSTOP = 267518220.906867 / time stop
TELAPASE = 19095.997491 / elapsed time = TSTOP - TSTART
ONTIME = 14359.998220 / on time = sum of all GTIs
LIVETIME = 14359.998220 / on-source time corrected for CCD exposure
EXPOSURE = 14359.998220 / exposure time
xisEventFitsUtil: rename ./fileJVFN9m-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 94632
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 94631/94632
[ 2] XISreadExp version 1.6
| OK: 94631/94631
[ 3] XISreadEvent version 2.7
| OK: 94630/94631 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 94630/94630
[ 5] XISeditEventFits version 2.1
| OK: 94630/94630
GET: 94630
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
94631 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
94631 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
94631 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
94630 : XIStime:ENTRY
94630 : XIStime:OK
1 : XISeditEventFits:BEGIN
94630 : XISeditEventFits:ENTRY
94630 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 94630 94630 SINGLE
XIS:RAWX 4 4 94630 94630 SINGLE
XIS:RAWY 4 4 94630 94630 SINGLE
XIS:ACTX 4 4 94630 94630 SINGLE
XIS:ACTY 4 4 94630 94630 SINGLE
XIS:DETX 4 4 94630 94630 SINGLE
XIS:DETY 4 4 94630 94630 SINGLE
XIS:FOCX 4 4 94630 94630 SINGLE
XIS:FOCY 4 4 94630 94630 SINGLE
XIS:X 4 4 94630 94630 SINGLE
XIS:Y 4 4 94630 94630 SINGLE
XIS:STATUS 4 4 94630 94630 SINGLE
XIS:PHAS 100 100 94630 94630 SINGLE
XIS:PHANOCTI 4 4 94630 94630 SINGLE
XIS:PHA 4 4 94630 94630 SINGLE
XIS:PI 4 4 94630 94630 SINGLE
XIS:GRADE 4 4 94630 94630 SINGLE
XIS:AEDATE 4 4 189260 94630 FAMILY
XIS:EXPTIME 4 4 94630 189260 FAMILY
XIS:EXPTIME_AETIME 8 8 189260 94630 SINGLE
XIS:S_TIME 8 8 94630 189260 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 94630 189260 FAMILY
XIS:EVENT_SEQ_NO 4 4 94630 94630 SINGLE
XIS:TIME 8 8 189260 94630 SINGLE
XIS:EXP_CENT_AETIME 8 8 189260 94630 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 94632 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.068 0.063 0.131 3.57
[ 2] XISreadExp 0.021 0.044 0.065 1.77
[ 3] XISreadEvent 1.438 0.100 1.538 41.92
[ 4] XIStime 0.328 0.053 0.381 10.38
[ 5] XISeditEventFits 1.384 0.153 1.537 41.89
(others) 0.006 0.011 0.017 0.46
--------------------------------------------------------------------------
TOTAL 3.245 0.424 3.668 100.00
-> xistime successful on ae803005010xi3_2_5x5n066.sff.infile,f,a,"ae803005010xi3_2_5x5n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_2_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 0
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 468.60 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 545.70 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 736.10 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 805.20 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 788.85 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 813.15 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 94630 events )
... 10% ( 9463 / 94630 events )
... 20% ( 18926 / 94630 events )
... 30% ( 28389 / 94630 events )
... 40% ( 37852 / 94630 events )
... 50% ( 47315 / 94630 events )
... 60% ( 56778 / 94630 events )
... 70% ( 66241 / 94630 events )
... 80% ( 75704 / 94630 events )
... 90% ( 85167 / 94630 events )
... 100% ( 94630 / 94630 events )
xisEventFitsUtil: rename ./fileAqDBPB-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 94632
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 94631/94632
[ 2] XISreadExp version 1.6
| OK: 94631/94631
[ 3] XISreadEvent version 2.7
| OK: 94630/94631 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 94630/94630
[ 5] XISeditEventFits version 2.1
| OK: 94630/94630
GET: 94630
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
94631 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
94631 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
94631 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
94630 : XIScoord:ENTRY
94630 : XIScoord:OK
1 : XISeditEventFits:BEGIN
94630 : XISeditEventFits:ENTRY
94630 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 94630 189260 SINGLE
XIS:RAWX 4 4 94630 189260 SINGLE
XIS:RAWY 4 4 94630 189260 SINGLE
XIS:ACTX 4 4 189260 94630 SINGLE
XIS:ACTY 4 4 189260 94630 SINGLE
XIS:DETX 4 4 189260 94630 SINGLE
XIS:DETY 4 4 189260 94630 SINGLE
XIS:FOCX 4 4 189260 94630 SINGLE
XIS:FOCY 4 4 189260 94630 SINGLE
XIS:X 4 4 189260 94630 SINGLE
XIS:Y 4 4 189260 94630 SINGLE
XIS:STATUS 4 4 94630 94630 SINGLE
XIS:PHAS 100 100 94630 94630 SINGLE
XIS:PHANOCTI 4 4 94630 94630 SINGLE
XIS:PHA 4 4 94630 94630 SINGLE
XIS:PI 4 4 94630 94630 SINGLE
XIS:GRADE 4 4 94630 94630 SINGLE
XIS:AEDATE 4 4 94630 94630 FAMILY
XIS:EXPTIME 4 4 94630 94630 FAMILY
XIS:EXPTIME_AETIME 8 8 94630 94630 SINGLE
XIS:S_TIME 8 8 94630 94630 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 94630 94630 FAMILY
XIS:EVENT_SEQ_NO 4 4 94630 94630 SINGLE
XIS:TIME 8 8 94630 189260 SINGLE
XIS:EXP_CENT_AETIME 8 8 94630 94630 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 94632 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.081 0.046 0.127 3.07
[ 2] XISreadExp 0.025 0.034 0.059 1.43
[ 3] XISreadEvent 1.530 0.073 1.603 38.77
[ 4] XIScoord 0.695 0.077 0.772 18.67
[ 5] XISeditEventFits 1.405 0.145 1.550 37.49
(others) 0.018 0.006 0.024 0.58
--------------------------------------------------------------------------
TOTAL 3.753 0.381 4.134 100.00
-> xiscoord successful on ae803005010xi3_2_5x5n066.sff.infile,f,a,"ae803005010xi3_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_2_5x5n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 94630 events )
... 10% ( 9463 / 94630 events )
... 20% ( 18926 / 94630 events )
... 30% ( 28389 / 94630 events )
... 40% ( 37852 / 94630 events )
... 50% ( 47315 / 94630 events )
... 60% ( 56778 / 94630 events )
... 70% ( 66241 / 94630 events )
... 80% ( 75704 / 94630 events )
... 90% ( 85167 / 94630 events )
... 100% ( 94630 / 94630 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 1583 1.67
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 3968 4.19
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 1072 1.13
B8 256 1PIX_FROM_SEGBOUNDARY 519 0.55
B9 512 SCI_3rd_TRAILING_ROW 995 1.05
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 4326 4.57
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 1084 1.15
B16 65536 CALMASK 13506 14.27
B17 131072 SEGBOUNDARY 2055 2.17
B18 262144 SCI_2nd_TRAILING_ROW 985 1.04
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 5469 5.78
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 18142 19.17
B29 536870912 SCI_TRAILING_ROW 18184 19.22
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 22 0.02
### 0 CLEAN_ZERO 37911 40.06
--------------------------------------------------------------
+++ 4294967295 SUM 109821 116.05
::: 524287 SAFE(B0-18) 55190 58.32
>>> 4294967295 TOTAL 94630 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileqeFY3g-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 94632
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 94631/94632
[ 2] XISreadExp version 1.6
| OK: 94631/94631
[ 3] XISreadEvent version 2.7
| OK: 94630/94631 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 94630/94630
[ 5] XISeditEventFits version 2.1
| OK: 94630/94630
GET: 94630
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
94631 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
94631 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
94631 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
94630 : XISputPixelQuality:ENTRY
94630 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
94630 : XISeditEventFits:ENTRY
94630 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4320
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 94630 94630 SINGLE
XIS:RAWX 4 4 94630 94630 SINGLE
XIS:RAWY 4 4 94630 189260 SINGLE
XIS:ACTX 4 4 94630 189260 SINGLE
XIS:ACTY 4 4 94630 189260 SINGLE
XIS:DETX 4 4 94630 94630 SINGLE
XIS:DETY 4 4 94630 94630 SINGLE
XIS:FOCX 4 4 94630 94630 SINGLE
XIS:FOCY 4 4 94630 94630 SINGLE
XIS:X 4 4 94630 94630 SINGLE
XIS:Y 4 4 94630 94630 SINGLE
XIS:STATUS 4 4 189260 94630 SINGLE
XIS:PHAS 100 100 94630 94630 SINGLE
XIS:PHANOCTI 4 4 94630 94630 SINGLE
XIS:PHA 4 4 94630 94630 SINGLE
XIS:PI 4 4 94630 94630 SINGLE
XIS:GRADE 4 4 94630 94630 SINGLE
XIS:AEDATE 4 4 94630 94630 FAMILY
XIS:EXPTIME 4 4 94630 94630 FAMILY
XIS:EXPTIME_AETIME 8 8 94630 94630 SINGLE
XIS:S_TIME 8 8 94630 94630 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 94630 94630 FAMILY
XIS:EVENT_SEQ_NO 4 4 94630 94630 SINGLE
XIS:TIME 8 8 94630 189260 SINGLE
XIS:EXP_CENT_AETIME 8 8 94630 94630 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 94632 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.061 0.043 0.104 3.02
[ 2] XISreadExp 0.032 0.048 0.080 2.32
[ 3] XISreadEvent 1.425 0.065 1.490 43.24
[ 4] XISputPixelQuality 0.176 0.053 0.229 6.65
[ 5] XISeditEventFits 1.348 0.178 1.526 44.28
(others) 0.008 0.009 0.017 0.49
--------------------------------------------------------------------------
TOTAL 3.050 0.396 3.445 100.00
-> xisputpixelquality successful on ae803005010xi3_2_5x5n066.sff.infile,f,a,"ae803005010xi3_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi3_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_2_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi3_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi3_0.hk, S3_VDCHK18_CAL, nrows=5662
nvalid=5325 nrej=337 time=267336977.4 - 267532613.4 [s]
AE-temp: average=15.892 sigma=1.508 min=11.909 max=18.354 [degC]
Event... 1 (0)
... 0% ( 0 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 9463 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 18926 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 28389 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 37852 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 47315 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 56778 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 66241 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 75704 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 85167 / 94630 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 94630 / 94630 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileqpgT83-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 94632
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 94631/94632
[ 2] XISreadExp version 1.6
| OK: 94631/94631
[ 3] XISreadEvent version 2.7
| OK: 94630/94631 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 94630/94630
[ 5] XIStrailCorrection version 3.1
| OK: 94630/94630
[ 6] XISctiCorrection version 3.4
| OK: 94630/94630
[ 7] XISgrade version 3.3
| OK: 94630/94630
[ 8] XISpha2pi version 3.2
| OK: 94630/94630
[ 9] XISeditEventFits version 2.1
| OK: 94630/94630
GET: 94630
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
94631 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
94631 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
94631 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
94630 : XISpreparePHASCORR:ENTRY
94630 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
94630 : XIStrailCorrection:ENTRY
94630 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
94630 : XISctiCorrection:ENTRY
94630 : XISctiCorrection:OK
1 : XISgrade:BEGIN
94630 : XISgrade:ENTRY
94630 : XISgrade:OK
1 : XISpha2pi:BEGIN
94630 : XISpha2pi:ENTRY
94630 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
94630 : XISeditEventFits:ENTRY
94630 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 189/5000
buffer size : 120000
buffer used : 4768
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 378526 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 94630 473150 SINGLE
XIS:RAWX 4 4 94630 283890 SINGLE
XIS:RAWY 4 4 94630 189260 SINGLE
XIS:ACTX 4 4 94630 94630 SINGLE
XIS:ACTY 4 4 94630 283890 SINGLE
XIS:DETX 4 4 94630 94630 SINGLE
XIS:DETY 4 4 94630 94630 SINGLE
XIS:FOCX 4 4 94630 94630 SINGLE
XIS:FOCY 4 4 94630 94630 SINGLE
XIS:X 4 4 94630 94630 SINGLE
XIS:Y 4 4 94630 94630 SINGLE
XIS:STATUS 4 4 94630 94630 SINGLE
XIS:PHAS 100 100 94630 189260 SINGLE
XIS:PHANOCTI 4 4 189260 94630 SINGLE
XIS:PHA 4 4 189260 94630 SINGLE
XIS:PI 4 4 189260 94630 SINGLE
XIS:GRADE 4 4 189260 94630 SINGLE
XIS:AEDATE 4 4 94630 94630 FAMILY
XIS:EXPTIME 4 4 94630 94630 FAMILY
XIS:EXPTIME_AETIME 8 8 94630 94630 SINGLE
XIS:S_TIME 8 8 94630 94630 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 94630 94630 FAMILY
XIS:EVENT_SEQ_NO 4 4 94630 94630 SINGLE
XIS:TIME 8 8 94630 473150 SINGLE
XIS:EXP_CENT_AETIME 8 8 94630 94630 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 94632 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 189260 94630 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 94630 94630 SINGLE
XIS:PHASCORR 200 200 283890 283890 SINGLE
XIS:PHA:DOUBLE 8 8 94630 94630 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.082 0.051 0.133 1.18
[ 2] XISreadExp 0.032 0.037 0.069 0.61
[ 3] XISreadEvent 1.536 0.102 1.638 14.53
[ 4] XISpreparePHASCORR 0.100 0.051 0.151 1.34
[ 5] XIStrailCorrection 0.184 0.053 0.237 2.10
[ 6] XISctiCorrection 5.236 1.592 6.828 60.57
[ 7] XISgrade 0.335 0.051 0.386 3.42
[ 8] XISpha2pi 0.258 0.050 0.308 2.73
[ 9] XISeditEventFits 1.348 0.150 1.498 13.29
(others) 0.018 0.008 0.026 0.23
--------------------------------------------------------------------------
TOTAL 9.129 2.145 11.273 100.00
-> xispi successful on ae803005010xi3_2_5x5n066.sff.infile,f,a,"ae803005010xi3_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi3_2_5x5n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_5x5n066.sff
OUTFILE ae803005010xi3_2_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi3_2_5x5n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 94630 events )
saturated frame, t=267499124.909 - 267499132.909 1997 (803/2800) seg=1111
saturated frame, t=267499132.909 - 267499140.909 1932 (804/2736) seg=1111
saturated frame, t=267499140.909 - 267499148.909 2087 (805/2892) seg=1111
saturated frame, t=267499148.909 - 267499156.909 2252 (821/3073) seg=1111
... 10% ( 9463 / 94630 events )
... 20% ( 18926 / 94630 events )
frame time jump, t=267501908.909 - 267503476.909 by 1568.000 s
frame time jump, t=267503612.909 - 267503876.909 by 264.000 s
... 30% ( 28389 / 94630 events )
saturated frame, t=267504828.909 - 267504836.909 1537 (817/2354) seg=1111
saturated frame, t=267504836.909 - 267504844.909 2165 (808/2973) seg=1111
saturated frame, t=267504844.909 - 267504852.909 2188 (808/2996) seg=1111
saturated frame, t=267504852.909 - 267504860.909 2169 (811/2980) seg=1111
saturated frame, t=267504860.909 - 267504868.909 257 (825/1082) seg=1111
... 40% ( 37852 / 94630 events )
... 50% ( 47315 / 94630 events )
frame time jump, t=267508084.908 - 267509612.908 by 1528.000 s
... 60% ( 56778 / 94630 events )
saturated frame, t=267510804.908 - 267510812.908 2172 (813/2985) seg=1111
saturated frame, t=267510812.908 - 267510820.908 2041 (808/2849) seg=1111
... 70% ( 66241 / 94630 events )
... 80% ( 75704 / 94630 events )
frame time jump, t=267514220.907 - 267515596.907 by 1376.000 s
... 90% ( 85167 / 94630 events )
... 100% ( 94630 / 94630 events )
XIScheckEventNo: GTI file 'ae803005010xi3_2_5x5n066.gti' created
N_FRAMES = 1795 / number of frames in the input event file
N_TESTED = 1795 / number of non-zero frames tested
N_PASSED = 1784 / number of frames passed the test
N_T_JUMP = 4 / number of frames detected time jump
N_SATURA = 11 / number of frames telemetry saturated
T_TESTED = 14360.000000 / exposure of non-zero frames tested
T_PASSED = 14272.000000 / exposure of frames passed the test
T_T_JUMP = 4735.999270 / loss of exposure due to time jump
T_SATURA = 88.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1796
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1795/1796
[ 2] XISreadExp version 1.6
| OK: 1795/1795
[ 3] XISreadEvent version 2.7 <------- LOOP: 94630
| OK: 94630/96425 -------> SKIP: 1795
[ 4] XIScheckEventNo version 1.2
| OK: 94630/94630
GET: 94630
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1795 : XISreadFrame:ENTRY
1795 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1795 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
96425 : XISreadEvent:ENTRY
96424 : XISreadEvent:OK
1795 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
94630 : XIScheckEventNo:ENTRY
94630 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 242/5000
buffer size : 120000
buffer used : 6432
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 1795 96425 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1795 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1795 96425 SINGLE
XIS:FRAMES:S_TIME 8 8 1795 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1795 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1795 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1795 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1795 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1795 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1795 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1795 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1795 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1795 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1795 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1795 1795 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1795 0 SINGLE
XIS:FRAMES:BIAS 16 16 1795 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1795 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1795 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1795 96425 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1795 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1795 94630 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1795 1795 SINGLE
XIS:FRAMES:TIME 8 8 1795 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 94630 94630 SINGLE
XIS:RAWX 4 4 94630 0 SINGLE
XIS:RAWY 4 4 94630 0 SINGLE
XIS:ACTX 4 4 94630 0 SINGLE
XIS:ACTY 4 4 94630 0 SINGLE
XIS:DETX 4 4 94630 0 SINGLE
XIS:DETY 4 4 94630 0 SINGLE
XIS:FOCX 4 4 94630 0 SINGLE
XIS:FOCY 4 4 94630 0 SINGLE
XIS:X 4 4 94630 0 SINGLE
XIS:Y 4 4 94630 0 SINGLE
XIS:STATUS 4 4 94630 0 SINGLE
XIS:PHAS 100 100 94630 0 SINGLE
XIS:PHANOCTI 4 4 94630 0 SINGLE
XIS:PHA 4 4 94630 0 SINGLE
XIS:PI 4 4 94630 0 SINGLE
XIS:GRADE 4 4 94630 0 SINGLE
XIS:AEDATE 4 4 94630 96424 FAMILY
XIS:EXPTIME 4 4 94630 96424 FAMILY
XIS:EXPTIME_AETIME 8 8 94630 0 SINGLE
XIS:S_TIME 8 8 94630 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 94630 96424 FAMILY
XIS:EVENT_SEQ_NO 4 4 94630 96424 SINGLE
XIS:TIME 8 8 94630 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 94630 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.430 0.007 0.437 16.47
[ 2] XISreadExp 0.002 0.001 0.003 0.11
[ 3] XISreadEvent 2.031 0.058 2.089 78.71
[ 4] XIScheckEventNo 0.047 0.060 0.107 4.03
(others) 0.008 0.010 0.018 0.68
--------------------------------------------------------------------------
TOTAL 2.518 0.136 2.654 100.00
-> xisgtigen successful on ae803005010xi3_2_5x5n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi3_3_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi3_3_3x3n066.fff.infile,f,a,"ae803005010xi3_3_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xistime_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" timfile,f,a,"ae803005010.tim",,,"input tim fits file name" gapsec,r,h,0.1,,,"Allowed gap between frames in second" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xistime
xistime version 2007-07-22
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIStime version 1.3
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_3_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_3_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae803005010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae803005010.tim[TIME_PACKETS_SEL]' ...
ntpk=22
aste_ti2time: reading 'ae803005010.tim[DP_TIMC]' ...
ndpk=75002, t=267164399.568 - 267692541.497
aste_ti2time: reading 'ae803005010.tim[DP_DHU_AVG]' ...
1: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=1,d=0
2: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
3: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
4: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
5: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
6: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
7: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
8: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
9: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
10: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
11: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
12: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
13: t0=267505621,N0=3955228672,Y=29460810/29255352,f=16777218.529,j=0,d=0
14: t0=267511669,N0=3980001280,Y=29255352/29050239,f=16777218.494,j=0,d=0
15: t0=267517813,N0=4005167104,Y=29050239/27126691,f=16777218.463,j=0,d=0
16: t0=267585813,N0=4283695104,Y=27126691/26932800,f=16777218.481,j=0,d=0
17: t0=267591925,N0=13762560,Y=26932800/26744348,f=16777218.336,j=0,d=0
18: t0=267598037,N0=38797312,Y=26744348/26566986,f=16777218.525,j=0,d=0
19: t0=267604117,N0=63700992,Y=26566986/24818381,f=16777218.495,j=0,d=0
20: t0=267666037,N0=317325312,Y=24818381/24437935,f=16777218.478,j=0,d=0
21: t0=267678229,N0=367263744,Y=24437935/24246916,f=16777218.481,j=0,d=0
22: t0=267684309,N0=392167424,Y=24246916/24063496,f=16777218.260,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 18162 events )
... 10% ( 1816 / 18162 events )
... 20% ( 3632 / 18162 events )
... 30% ( 5448 / 18162 events )
... 40% ( 7264 / 18162 events )
... 50% ( 9080 / 18162 events )
... 60% ( 10896 / 18162 events )
... 70% ( 12712 / 18162 events )
... 80% ( 14528 / 18162 events )
... 90% ( 16344 / 18162 events )
... 100% ( 18162 / 18162 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267529548.905401 / time start
TSTOP = 267532596.904953 / time stop
TELAPASE = 3047.999552 / elapsed time = TSTOP - TSTART
ONTIME = 3047.999552 / on time = sum of all GTIs
LIVETIME = 3047.999552 / on-source time corrected for CCD exposure
EXPOSURE = 3047.999552 / exposure time
xisEventFitsUtil: rename ./fileWOvPRb-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 18164
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 18163/18164
[ 2] XISreadExp version 1.6
| OK: 18163/18163
[ 3] XISreadEvent version 2.7
| OK: 18162/18163 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 18162/18162
[ 5] XISeditEventFits version 2.1
| OK: 18162/18162
GET: 18162
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
18163 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
18163 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18163 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
18162 : XIStime:ENTRY
18162 : XIStime:OK
1 : XISeditEventFits:BEGIN
18162 : XISeditEventFits:ENTRY
18162 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 18162 18162 SINGLE
XIS:RAWX 4 4 18162 18162 SINGLE
XIS:RAWY 4 4 18162 18162 SINGLE
XIS:ACTX 4 4 18162 18162 SINGLE
XIS:ACTY 4 4 18162 18162 SINGLE
XIS:DETX 4 4 18162 18162 SINGLE
XIS:DETY 4 4 18162 18162 SINGLE
XIS:FOCX 4 4 18162 18162 SINGLE
XIS:FOCY 4 4 18162 18162 SINGLE
XIS:X 4 4 18162 18162 SINGLE
XIS:Y 4 4 18162 18162 SINGLE
XIS:STATUS 4 4 18162 18162 SINGLE
XIS:PHAS 36 36 18162 18162 SINGLE
XIS:PHANOCTI 4 4 18162 18162 SINGLE
XIS:PHA 4 4 18162 18162 SINGLE
XIS:PI 4 4 18162 18162 SINGLE
XIS:GRADE 4 4 18162 18162 SINGLE
XIS:P_OUTER_MOST 4 4 18162 18162 SINGLE
XIS:SUM_OUTER_MOST 4 4 18162 18162 SINGLE
XIS:AEDATE 4 4 36324 18162 FAMILY
XIS:EXPTIME 4 4 18162 36324 FAMILY
XIS:EXPTIME_AETIME 8 8 36324 18162 SINGLE
XIS:S_TIME 8 8 18162 36324 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18162 36324 FAMILY
XIS:EVENT_SEQ_NO 4 4 18162 18162 SINGLE
XIS:TIME 8 8 36324 18162 SINGLE
XIS:EXP_CENT_AETIME 8 8 36324 18162 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 18164 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.017 0.007 0.024 2.68
[ 2] XISreadExp 0.005 0.012 0.017 1.90
[ 3] XISreadEvent 0.277 0.019 0.296 33.04
[ 4] XIStime 0.187 0.017 0.204 22.77
[ 5] XISeditEventFits 0.308 0.030 0.338 37.72
(others) 0.010 0.007 0.017 1.90
--------------------------------------------------------------------------
TOTAL 0.804 0.092 0.896 100.00
-> xistime successful on ae803005010xi3_3_3x3n066.sff.infile,f,a,"ae803005010xi3_3_3x3n066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_3_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_3_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 468.60 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 545.70 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 736.10 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 805.20 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 186.34920 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 788.85 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = 18.18510 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 813.15 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 18162 events )
... 10% ( 1816 / 18162 events )
... 20% ( 3632 / 18162 events )
... 30% ( 5448 / 18162 events )
... 40% ( 7264 / 18162 events )
... 50% ( 9080 / 18162 events )
... 60% ( 10896 / 18162 events )
... 70% ( 12712 / 18162 events )
... 80% ( 14528 / 18162 events )
... 90% ( 16344 / 18162 events )
... 100% ( 18162 / 18162 events )
xisEventFitsUtil: rename ./filedkwHBe-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 18164
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 18163/18164
[ 2] XISreadExp version 1.6
| OK: 18163/18163
[ 3] XISreadEvent version 2.7
| OK: 18162/18163 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 18162/18162
[ 5] XISeditEventFits version 2.1
| OK: 18162/18162
GET: 18162
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
18163 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
18163 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18163 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
18162 : XIScoord:ENTRY
18162 : XIScoord:OK
1 : XISeditEventFits:BEGIN
18162 : XISeditEventFits:ENTRY
18162 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 18162 36324 SINGLE
XIS:RAWX 4 4 18162 36324 SINGLE
XIS:RAWY 4 4 18162 36324 SINGLE
XIS:ACTX 4 4 36324 18162 SINGLE
XIS:ACTY 4 4 36324 18162 SINGLE
XIS:DETX 4 4 36324 18162 SINGLE
XIS:DETY 4 4 36324 18162 SINGLE
XIS:FOCX 4 4 36324 18162 SINGLE
XIS:FOCY 4 4 36324 18162 SINGLE
XIS:X 4 4 36324 18162 SINGLE
XIS:Y 4 4 36324 18162 SINGLE
XIS:STATUS 4 4 18162 18162 SINGLE
XIS:PHAS 36 36 18162 18162 SINGLE
XIS:PHANOCTI 4 4 18162 18162 SINGLE
XIS:PHA 4 4 18162 18162 SINGLE
XIS:PI 4 4 18162 18162 SINGLE
XIS:GRADE 4 4 18162 18162 SINGLE
XIS:P_OUTER_MOST 4 4 18162 18162 SINGLE
XIS:SUM_OUTER_MOST 4 4 18162 18162 SINGLE
XIS:AEDATE 4 4 18162 18162 FAMILY
XIS:EXPTIME 4 4 18162 18162 FAMILY
XIS:EXPTIME_AETIME 8 8 18162 18162 SINGLE
XIS:S_TIME 8 8 18162 18162 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18162 18162 FAMILY
XIS:EVENT_SEQ_NO 4 4 18162 18162 SINGLE
XIS:TIME 8 8 18162 36324 SINGLE
XIS:EXP_CENT_AETIME 8 8 18162 18162 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 18164 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.029 0.009 0.038 4.31
[ 2] XISreadExp 0.005 0.006 0.011 1.25
[ 3] XISreadEvent 0.304 0.013 0.317 35.98
[ 4] XIScoord 0.156 0.026 0.182 20.66
[ 5] XISeditEventFits 0.281 0.030 0.311 35.30
(others) 0.013 0.009 0.022 2.50
--------------------------------------------------------------------------
TOTAL 0.788 0.093 0.881 100.00
-> xiscoord successful on ae803005010xi3_3_3x3n066.sff.infile,f,a,"ae803005010xi3_3_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xisputpixelquality_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" enable_scipixq,b,h,yes,,,"Flag to enable SCI pixel quality bits" badcolumfile,f,h,"CALDB",,,"CALDB file for badcolumn information" calmaskfile,f,h,"CALDB",,,"CALDB file of calmask" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisputpixelquality
xisputpixelquality version 2007-05-30
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISputPixelQuality version 2.0
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_3_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_3_3x3n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 18162 events )
... 10% ( 1816 / 18162 events )
... 20% ( 3632 / 18162 events )
... 30% ( 5448 / 18162 events )
... 40% ( 7264 / 18162 events )
... 50% ( 9080 / 18162 events )
... 60% ( 10896 / 18162 events )
... 70% ( 12712 / 18162 events )
... 80% ( 14528 / 18162 events )
... 90% ( 16344 / 18162 events )
... 100% ( 18162 / 18162 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 323 1.78
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 733 4.04
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 229 1.26
B8 256 1PIX_FROM_SEGBOUNDARY 82 0.45
B9 512 SCI_3rd_TRAILING_ROW 241 1.33
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 790 4.35
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 273 1.50
B16 65536 CALMASK 2871 15.81
B17 131072 SEGBOUNDARY 479 2.64
B18 262144 SCI_2nd_TRAILING_ROW 227 1.25
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 486 2.68
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 2495 13.74
B29 536870912 SCI_TRAILING_ROW 2327 12.81
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 5 0.03
### 0 CLEAN_ZERO 8959 49.33
--------------------------------------------------------------
+++ 4294967295 SUM 20520 112.98
::: 524287 SAFE(B0-18) 13059 71.90
>>> 4294967295 TOTAL 18162 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileaDRMTb-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 18164
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 18163/18164
[ 2] XISreadExp version 1.6
| OK: 18163/18163
[ 3] XISreadEvent version 2.7
| OK: 18162/18163 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 18162/18162
[ 5] XISeditEventFits version 2.1
| OK: 18162/18162
GET: 18162
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
18163 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
18163 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18163 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
18162 : XISputPixelQuality:ENTRY
18162 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
18162 : XISeditEventFits:ENTRY
18162 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 18162 18162 SINGLE
XIS:RAWX 4 4 18162 18162 SINGLE
XIS:RAWY 4 4 18162 36324 SINGLE
XIS:ACTX 4 4 18162 36324 SINGLE
XIS:ACTY 4 4 18162 36324 SINGLE
XIS:DETX 4 4 18162 18162 SINGLE
XIS:DETY 4 4 18162 18162 SINGLE
XIS:FOCX 4 4 18162 18162 SINGLE
XIS:FOCY 4 4 18162 18162 SINGLE
XIS:X 4 4 18162 18162 SINGLE
XIS:Y 4 4 18162 18162 SINGLE
XIS:STATUS 4 4 36324 18162 SINGLE
XIS:PHAS 36 36 18162 18162 SINGLE
XIS:PHANOCTI 4 4 18162 18162 SINGLE
XIS:PHA 4 4 18162 18162 SINGLE
XIS:PI 4 4 18162 18162 SINGLE
XIS:GRADE 4 4 18162 18162 SINGLE
XIS:P_OUTER_MOST 4 4 18162 18162 SINGLE
XIS:SUM_OUTER_MOST 4 4 18162 18162 SINGLE
XIS:AEDATE 4 4 18162 18162 FAMILY
XIS:EXPTIME 4 4 18162 18162 FAMILY
XIS:EXPTIME_AETIME 8 8 18162 18162 SINGLE
XIS:S_TIME 8 8 18162 18162 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18162 18162 FAMILY
XIS:EVENT_SEQ_NO 4 4 18162 18162 SINGLE
XIS:TIME 8 8 18162 36324 SINGLE
XIS:EXP_CENT_AETIME 8 8 18162 18162 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 18164 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.017 0.009 0.026 3.36
[ 2] XISreadExp 0.007 0.010 0.017 2.20
[ 3] XISreadEvent 0.298 0.008 0.306 39.59
[ 4] XISputPixelQuality 0.073 0.014 0.087 11.26
[ 5] XISeditEventFits 0.290 0.030 0.320 41.40
(others) 0.013 0.004 0.017 2.20
--------------------------------------------------------------------------
TOTAL 0.698 0.075 0.773 100.00
-> xisputpixelquality successful on ae803005010xi3_3_3x3n066.sff.infile,f,a,"ae803005010xi3_3_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"xispi_out.evt",,,"Name of output event fits file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" hkfile,f,a,"ae803005010xi3_0.hk",,,"Name of input XIS HK file" makepifile,f,h,"CALDB",,,"CALDB file for PI parameters" enable_trcor,b,h,yes,,,"Flag to enable charge trail correction" enable_cticor,b,h,yes,,,"Flag to enable CTI correction" enable_scicti,b,h,yes,,,"Flag to enable CTI correction for SCI" flag_constant_spth,b,h,no,,,"Flag to use constant Spth" constant_spth,i,h,20,,,"default contant_spth = 20 (ADU)" enable_edge_smooth,b,h,yes,,,"Flag to enable smoothing the PHA to PI relation around edge" hk_time_margin,r,h,3600,,,"time margin in second to consider AE-temp is valid" hk_aetemp_min,r,h,-30.0,,,"minimum value in degC to consider AE-temp is valid" hk_aetemp_max,r,h,+40.0,,,"maximum value in degC to consider AE-temp is valid" flag_rand_phas0,b,h,yes,,,"Flag to randomize PHAS[0]" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip count" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xispi
xispi version 2008-04-10
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XISpreparePHASCORR version 3.2
[ 5] XIStrailCorrection version 3.1
[ 6] XISctiCorrection version 3.4
[ 7] XISgrade version 3.3
[ 8] XISpha2pi version 3.2
[ 9] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_3_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_3_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae803005010xi3_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae803005010xi3_0.hk, S3_VDCHK18_CAL, nrows=5662
nvalid=5325 nrej=337 time=267336977.4 - 267532613.4 [s]
AE-temp: average=15.892 sigma=1.508 min=11.909 max=18.354 [degC]
Event... 1 (0)
... 0% ( 0 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 1816 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 3632 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 5448 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 7264 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 9080 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 10896 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 12712 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 14528 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 16344 / 18162 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 18162 / 18162 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filedJ60e5-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 18164
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 18163/18164
[ 2] XISreadExp version 1.6
| OK: 18163/18163
[ 3] XISreadEvent version 2.7
| OK: 18162/18163 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 18162/18162
[ 5] XIStrailCorrection version 3.1
| OK: 18162/18162
[ 6] XISctiCorrection version 3.4
| OK: 18162/18162
[ 7] XISgrade version 3.3
| OK: 18162/18162
[ 8] XISpha2pi version 3.2
| OK: 18162/18162
[ 9] XISeditEventFits version 2.1
| OK: 18162/18162
GET: 18162
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
18163 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
18163 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18163 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
18162 : XISpreparePHASCORR:ENTRY
18162 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
18162 : XIStrailCorrection:ENTRY
18162 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
18162 : XISctiCorrection:ENTRY
18162 : XISctiCorrection:OK
1 : XISgrade:BEGIN
18162 : XISgrade:ENTRY
18162 : XISgrade:OK
1 : XISpha2pi:BEGIN
18162 : XISpha2pi:ENTRY
18162 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
18162 : XISeditEventFits:ENTRY
18162 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 72654 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 2 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 1 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 18162 90810 SINGLE
XIS:RAWX 4 4 18162 54486 SINGLE
XIS:RAWY 4 4 18162 36324 SINGLE
XIS:ACTX 4 4 18162 18162 SINGLE
XIS:ACTY 4 4 18162 54486 SINGLE
XIS:DETX 4 4 18162 18162 SINGLE
XIS:DETY 4 4 18162 18162 SINGLE
XIS:FOCX 4 4 18162 18162 SINGLE
XIS:FOCY 4 4 18162 18162 SINGLE
XIS:X 4 4 18162 18162 SINGLE
XIS:Y 4 4 18162 18162 SINGLE
XIS:STATUS 4 4 18162 18162 SINGLE
XIS:PHAS 36 36 18162 36324 SINGLE
XIS:PHANOCTI 4 4 36324 18162 SINGLE
XIS:PHA 4 4 36324 18162 SINGLE
XIS:PI 4 4 36324 18162 SINGLE
XIS:GRADE 4 4 36324 18162 SINGLE
XIS:P_OUTER_MOST 4 4 18162 36324 SINGLE
XIS:SUM_OUTER_MOST 4 4 18162 36324 SINGLE
XIS:AEDATE 4 4 18162 18162 FAMILY
XIS:EXPTIME 4 4 18162 18162 FAMILY
XIS:EXPTIME_AETIME 8 8 18162 18162 SINGLE
XIS:S_TIME 8 8 18162 18162 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18162 18162 FAMILY
XIS:EVENT_SEQ_NO 4 4 18162 18162 SINGLE
XIS:TIME 8 8 18162 90810 SINGLE
XIS:EXP_CENT_AETIME 8 8 18162 18162 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 18164 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 36324 18162 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 18162 18162 SINGLE
XIS:PHASCORR 72 72 54486 54486 SINGLE
XIS:PHA:DOUBLE 8 8 18162 18162 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.021 0.008 0.029 1.35
[ 2] XISreadExp 0.004 0.007 0.011 0.51
[ 3] XISreadEvent 0.314 0.019 0.333 15.45
[ 4] XISpreparePHASCORR 0.018 0.006 0.024 1.11
[ 5] XIStrailCorrection 0.067 0.007 0.074 3.43
[ 6] XISctiCorrection 0.805 0.340 1.145 53.11
[ 7] XISgrade 0.072 0.008 0.080 3.71
[ 8] XISpha2pi 0.083 0.015 0.098 4.55
[ 9] XISeditEventFits 0.309 0.027 0.336 15.58
(others) 0.019 0.007 0.026 1.21
--------------------------------------------------------------------------
TOTAL 1.712 0.444 2.156 100.00
-> xispi successful on ae803005010xi3_3_3x3n066.sff.infile,f,a,"ae803005010xi3_3_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae803005010xi3_3_3x3n066.gti",,,"Name of output GTI file" ignore_frames,b,h,no,,,"Flag to ignore FRAMES extension" gapsec,r,h,0.1,,,"Allowed gap between frames in second" segment_a,b,h,yes,,,"Check segment A" segment_b,b,h,yes,,,"Check segment B" segment_c,b,h,yes,,,"Check segment C" segment_d,b,h,yes,,,"Check segment D" clobber,b,h,yes,,,"Overwrite output file if exists?" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xisgtigen
xisgtigen version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScheckEventNo version 1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_3_3x3n066.sff
OUTFILE ae803005010xi3_3_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae803005010xi3_3_3x3n066.sff'
ANL: *** XIScheckEventNo show parameter ***
GAPSEC 0.100000 (s)
SEGMENT_A YES
SEGMENT_B YES
SEGMENT_C YES
SEGMENT_D YES
CLOBBER YES
Event... 1 (0)
... 0% ( 0 / 18162 events )
saturated frame, t=267529548.905 - 267529556.905 -22 (22/0) seg=1111
... 10% ( 1816 / 18162 events )
... 20% ( 3632 / 18162 events )
... 30% ( 5448 / 18162 events )
... 40% ( 7264 / 18162 events )
... 50% ( 9080 / 18162 events )
... 60% ( 10896 / 18162 events )
... 70% ( 12712 / 18162 events )
... 80% ( 14528 / 18162 events )
... 90% ( 16344 / 18162 events )
... 100% ( 18162 / 18162 events )
XIScheckEventNo: GTI file 'ae803005010xi3_3_3x3n066.gti' created
N_FRAMES = 381 / number of frames in the input event file
N_TESTED = 381 / number of non-zero frames tested
N_PASSED = 380 / number of frames passed the test
N_T_JUMP = 0 / number of frames detected time jump
N_SATURA = 1 / number of frames telemetry saturated
T_TESTED = 3048.000000 / exposure of non-zero frames tested
T_PASSED = 3040.000000 / exposure of frames passed the test
T_T_JUMP = 0.000000 / loss of exposure due to time jump
T_SATURA = 8.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 382
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 381/382
[ 2] XISreadExp version 1.6
| OK: 381/381
[ 3] XISreadEvent version 2.7 <------- LOOP: 18162
| OK: 18162/18543 -------> SKIP: 381
[ 4] XIScheckEventNo version 1.2
| OK: 18162/18162
GET: 18162
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
381 : XISreadFrame:ENTRY
381 : XISreadFrame:OK
1 : XISreadExp:BEGIN
381 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
18543 : XISreadEvent:ENTRY
18542 : XISreadEvent:OK
381 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
18162 : XIScheckEventNo:ENTRY
18162 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 381 18543 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 381 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 381 18543 SINGLE
XIS:FRAMES:S_TIME 8 8 381 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 381 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 381 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 381 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 381 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 381 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 381 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 381 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 381 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 381 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 381 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 381 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 381 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 381 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 381 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 381 381 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 381 0 SINGLE
XIS:FRAMES:BIAS 16 16 381 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 381 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 381 0 SINGLE
XIS:FRAMES:AEDATE 4 4 381 18543 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 381 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 381 18162 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 381 381 SINGLE
XIS:FRAMES:TIME 8 8 381 0 SINGLE
XIS:FRAMES:AP4N 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y1 4 4 1 0 SINGLE
XIS:FRAMES:AP4Y2 4 4 1 0 SINGLE
XIS:FRAMES:AP256N 4 4 1 0 SINGLE
XIS:FRAMES:AP256Y1 4 4 1 0 SINGLE
XIS:FRAMES:NOM_PNT 5 5 1 0 SINGLE
XIS:FRAMES:SEQPNUM 4 4 1 0 SINGLE
XIS:FRAMES:PROCVER 10 10 1 0 SINGLE
XIS:FRAMES:MK1STVER 19 19 1 0 SINGLE
XIS:FRAMES:SOFTVER 44 44 1 0 SINGLE
XIS:FRAMES:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES:LIST:PTR 4 4 1 0 SINGLE
XIS:FRAMES:LIST:NUM 4 4 1 0 SINGLE
XIS:FRAMES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EXPNAMENOS 4 4 1 1 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:EXPOSURES:AEDATE 4 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME 4 0 0 0 SINGLE
XIS:EXPOSURES:S_TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPTIME_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE_SEQ_NO 4 0 0 0 SINGLE
XIS:EXPOSURES:EXP_CENT_AETIME 8 0 0 0 SINGLE
XIS:EXPOSURES:EXPOSURE 8 0 0 0 SINGLE
XIS:EXPOSURES:TIME 8 0 0 0 SINGLE
XIS:EXPOSURES:AP4N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:AP4Y2 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256N 4 4 1 0 SINGLE
XIS:EXPOSURES:AP256Y1 4 4 1 0 SINGLE
XIS:EXPOSURES:NOM_PNT 5 5 1 0 SINGLE
XIS:EXPOSURES:SEQPNUM 4 4 1 0 SINGLE
XIS:EXPOSURES:PROCVER 10 10 1 0 SINGLE
XIS:EXPOSURES:MK1STVER 19 19 1 0 SINGLE
XIS:EXPOSURES:SOFTVER 44 44 1 0 SINGLE
XIS:EXPOSURES:CALDBVER 49 49 1 0 SINGLE
XIS:EXPOSURES:LIST:PTR 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:NUM 4 4 1 0 SINGLE
XIS:EXPOSURES:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:SEGMENT 4 4 18162 18162 SINGLE
XIS:RAWX 4 4 18162 0 SINGLE
XIS:RAWY 4 4 18162 0 SINGLE
XIS:ACTX 4 4 18162 0 SINGLE
XIS:ACTY 4 4 18162 0 SINGLE
XIS:DETX 4 4 18162 0 SINGLE
XIS:DETY 4 4 18162 0 SINGLE
XIS:FOCX 4 4 18162 0 SINGLE
XIS:FOCY 4 4 18162 0 SINGLE
XIS:X 4 4 18162 0 SINGLE
XIS:Y 4 4 18162 0 SINGLE
XIS:STATUS 4 4 18162 0 SINGLE
XIS:PHAS 36 36 18162 0 SINGLE
XIS:PHANOCTI 4 4 18162 0 SINGLE
XIS:PHA 4 4 18162 0 SINGLE
XIS:PI 4 4 18162 0 SINGLE
XIS:GRADE 4 4 18162 0 SINGLE
XIS:P_OUTER_MOST 4 4 18162 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 18162 0 SINGLE
XIS:AEDATE 4 4 18162 18542 FAMILY
XIS:EXPTIME 4 4 18162 18542 FAMILY
XIS:EXPTIME_AETIME 8 8 18162 0 SINGLE
XIS:S_TIME 8 8 18162 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 18162 18542 FAMILY
XIS:EVENT_SEQ_NO 4 4 18162 18542 SINGLE
XIS:TIME 8 8 18162 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 18162 0 SINGLE
XIS:TCRPX6 8 8 1 0 SINGLE
XIS:TCRVL6 8 8 1 0 SINGLE
XIS:TCDLT6 8 8 1 0 SINGLE
XIS:TCRPX7 8 8 1 0 SINGLE
XIS:TCRVL7 8 8 1 0 SINGLE
XIS:TCDLT7 8 8 1 0 SINGLE
XIS:TCRPX8 8 8 1 0 SINGLE
XIS:TCRVL8 8 8 1 0 SINGLE
XIS:TCDLT8 8 8 1 0 SINGLE
XIS:TCRPX9 8 8 1 0 SINGLE
XIS:TCRVL9 8 8 1 0 SINGLE
XIS:TCDLT9 8 8 1 0 SINGLE
XIS:TCRPX10 8 8 1 0 SINGLE
XIS:TCRVL10 8 8 1 0 SINGLE
XIS:TCDLT10 8 8 1 0 SINGLE
XIS:TCRPX11 8 8 1 0 SINGLE
XIS:TCRVL11 8 8 1 0 SINGLE
XIS:TCDLT11 8 8 1 0 SINGLE
XIS:TCTYP10 10 10 1 0 SINGLE
XIS:TCTYP11 10 10 1 0 SINGLE
XIS:OPTIC6 8 8 1 0 SINGLE
XIS:OPTIC7 8 8 1 0 SINGLE
XIS:OPTIC8 8 8 1 0 SINGLE
XIS:OPTIC9 8 8 1 0 SINGLE
XIS:OPTIC10 8 8 1 0 SINGLE
XIS:OPTIC11 8 8 1 0 SINGLE
XIS:NPIXSOU 8 8 1 0 SINGLE
XIS:DSTYP1 7 7 1 0 SINGLE
XIS:DSVAL1 6 6 1 0 SINGLE
XIS:DSTYP2 4 4 1 0 SINGLE
XIS:DSVAL2 8 8 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 0 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 0 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 0 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 0 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.098 0.004 0.102 17.41
[ 2] XISreadExp 0.003 0.000 0.003 0.51
[ 3] XISreadEvent 0.425 0.013 0.438 74.75
[ 4] XIScheckEventNo 0.015 0.008 0.023 3.92
(others) 0.013 0.007 0.020 3.41
--------------------------------------------------------------------------
TOTAL 0.554 0.032 0.586 100.00
-> xisgtigen successful on ae803005010xi3_3_3x3n066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi0_1_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi0_1_dun066.fff.infile,f,a,"ae803005010xi0_1_dun066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_1_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_1_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 5
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN8 = 1 / minimum legal value for DETX
TLMAX8 = 1024 / maximum legal value for DETX
TCRPX8 = 512.5 / DETX reference pixel
TCRVL8 = 0.0 / DETX reference pixel value (mm)
TCDLT8 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC8 = 584.80 / DETX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for DETY
TLMAX9 = 1024 / maximum legal value for DETY
TCRPX9 = 512.5 / DETY reference pixel
TCRVL9 = 0.0 / DETY reference pixel value (mm)
TCDLT9 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC9 = 497.50 / DETY of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 548 events )
... 10% ( 54 / 548 events )
... 20% ( 108 / 548 events )
... 30% ( 162 / 548 events )
... 40% ( 216 / 548 events )
... 50% ( 270 / 548 events )
... 60% ( 324 / 548 events )
... 70% ( 378 / 548 events )
... 80% ( 432 / 548 events )
... 90% ( 486 / 548 events )
... 100% ( 548 / 548 events )
xisEventFitsUtil: rename ./fileKTcf8v-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 550
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 549/550
[ 2] XISreadExp version 1.6
| OK: 549/549
[ 3] XISreadEvent version 2.7
| OK: 548/549 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 548/548
[ 5] XISeditEventFits version 2.1
| OK: 548/548
GET: 548
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
549 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
549 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
549 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
548 : XIScoord:ENTRY
548 : XIScoord:OK
1 : XISeditEventFits:BEGIN
548 : XISeditEventFits:ENTRY
548 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 149/5000
buffer size : 120000
buffer used : 3744
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 28 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 12 12 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 35 35 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 548 1096 SINGLE
XIS:PPUX 4 4 548 1096 SINGLE
XIS:PPUY 4 4 548 1096 SINGLE
XIS:RAWX 4 4 1096 548 SINGLE
XIS:RAWY 4 4 1096 548 SINGLE
XIS:ACTX 4 4 1096 548 SINGLE
XIS:ACTY 4 4 1096 548 SINGLE
XIS:DETX 4 4 1096 548 SINGLE
XIS:DETY 4 4 1096 548 SINGLE
XIS:PHAS 4 4 548 548 SINGLE
XIS:AEDATE 4 4 548 548 FAMILY
XIS:EXPTIME 4 4 548 548 FAMILY
XIS:EXPTIME_AETIME 8 8 548 548 SINGLE
XIS:S_TIME 8 8 548 548 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 548 548 FAMILY
XIS:EVENT_SEQ_NO 4 4 548 548 SINGLE
XIS:TIME 8 8 548 1096 SINGLE
XIS:HOTPIXELS:AP4N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y2 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:NOM_PNT 5 5 1 0 SINGLE
XIS:HOTPIXELS:SEQPNUM 4 4 1 0 SINGLE
XIS:HOTPIXELS:PROCVER 10 10 1 0 SINGLE
XIS:HOTPIXELS:MK1STVER 19 19 1 0 SINGLE
XIS:HOTPIXELS:SOFTVER 44 44 1 0 SINGLE
XIS:HOTPIXELS:CALDBVER 49 49 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 550 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.006 0.000 0.006 6.25
[ 2] XISreadExp 0.000 0.000 0.000 0.00
[ 3] XISreadEvent 0.009 0.002 0.011 11.46
[ 4] XIScoord 0.025 0.002 0.027 28.13
[ 5] XISeditEventFits 0.023 0.005 0.028 29.17
(others) 0.015 0.009 0.024 25.00
--------------------------------------------------------------------------
TOTAL 0.078 0.018 0.096 100.00
-> xiscoord successful on ae803005010xi0_1_dun066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi0_2_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi0_2_dun066.fff.infile,f,a,"ae803005010xi0_2_dun066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi0_2_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi0_2_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 5
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN8 = 1 / minimum legal value for DETX
TLMAX8 = 1024 / maximum legal value for DETX
TCRPX8 = 512.5 / DETX reference pixel
TCRVL8 = 0.0 / DETX reference pixel value (mm)
TCDLT8 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC8 = 584.80 / DETX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for DETY
TLMAX9 = 1024 / maximum legal value for DETY
TCRPX9 = 512.5 / DETY reference pixel
TCRVL9 = 0.0 / DETY reference pixel value (mm)
TCDLT9 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC9 = 497.50 / DETY of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 3865 events )
... 10% ( 386 / 3865 events )
... 20% ( 772 / 3865 events )
... 30% ( 1158 / 3865 events )
... 40% ( 1544 / 3865 events )
... 50% ( 1930 / 3865 events )
... 60% ( 2316 / 3865 events )
... 70% ( 2702 / 3865 events )
... 80% ( 3088 / 3865 events )
... 90% ( 3474 / 3865 events )
... 100% ( 3865 / 3865 events )
xisEventFitsUtil: rename ./file3RS8FW-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 3867
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 3866/3867
[ 2] XISreadExp version 1.6
| OK: 3866/3866
[ 3] XISreadEvent version 2.7
| OK: 3865/3866 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 3865/3865
[ 5] XISeditEventFits version 2.1
| OK: 3865/3865
GET: 3865
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
3866 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
3866 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
3866 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
3865 : XIScoord:ENTRY
3865 : XIScoord:OK
1 : XISeditEventFits:BEGIN
3865 : XISeditEventFits:ENTRY
3865 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 149/5000
buffer size : 120000
buffer used : 3744
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 28 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 12 12 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 35 35 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 3865 7730 SINGLE
XIS:PPUX 4 4 3865 7730 SINGLE
XIS:PPUY 4 4 3865 7730 SINGLE
XIS:RAWX 4 4 7730 3865 SINGLE
XIS:RAWY 4 4 7730 3865 SINGLE
XIS:ACTX 4 4 7730 3865 SINGLE
XIS:ACTY 4 4 7730 3865 SINGLE
XIS:DETX 4 4 7730 3865 SINGLE
XIS:DETY 4 4 7730 3865 SINGLE
XIS:PHAS 4 4 3865 3865 SINGLE
XIS:AEDATE 4 4 3865 3865 FAMILY
XIS:EXPTIME 4 4 3865 3865 FAMILY
XIS:EXPTIME_AETIME 8 8 3865 3865 SINGLE
XIS:S_TIME 8 8 3865 3865 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 3865 3865 FAMILY
XIS:EVENT_SEQ_NO 4 4 3865 3865 SINGLE
XIS:TIME 8 8 3865 7730 SINGLE
XIS:HOTPIXELS:AP4N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y2 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:NOM_PNT 5 5 1 0 SINGLE
XIS:HOTPIXELS:SEQPNUM 4 4 1 0 SINGLE
XIS:HOTPIXELS:PROCVER 10 10 1 0 SINGLE
XIS:HOTPIXELS:MK1STVER 19 19 1 0 SINGLE
XIS:HOTPIXELS:SOFTVER 44 44 1 0 SINGLE
XIS:HOTPIXELS:CALDBVER 49 49 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 3867 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.009 0.004 0.013 7.18
[ 2] XISreadExp 0.002 0.004 0.006 3.32
[ 3] XISreadEvent 0.044 0.000 0.044 24.31
[ 4] XIScoord 0.032 0.003 0.035 19.34
[ 5] XISeditEventFits 0.052 0.007 0.059 32.60
(others) 0.017 0.007 0.024 13.26
--------------------------------------------------------------------------
TOTAL 0.156 0.025 0.181 100.00
-> xiscoord successful on ae803005010xi0_2_dun066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi1_1_dun069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi1_1_dun069.fff.infile,f,a,"ae803005010xi1_1_dun069.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_1_dun069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_1_dun069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 5
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN8 = 1 / minimum legal value for DETX
TLMAX8 = 1024 / maximum legal value for DETX
TCRPX8 = 512.5 / DETX reference pixel
TCRVL8 = 0.0 / DETX reference pixel value (mm)
TCDLT8 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC8 = 547.80 / DETX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for DETY
TLMAX9 = 1024 / maximum legal value for DETY
TCRPX9 = 512.5 / DETY reference pixel
TCRVL9 = 0.0 / DETY reference pixel value (mm)
TCDLT9 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC9 = 472.60 / DETY of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 561 events )
... 10% ( 56 / 561 events )
... 20% ( 112 / 561 events )
... 30% ( 168 / 561 events )
... 40% ( 224 / 561 events )
... 50% ( 280 / 561 events )
... 60% ( 336 / 561 events )
... 70% ( 392 / 561 events )
... 80% ( 448 / 561 events )
... 90% ( 504 / 561 events )
... 100% ( 561 / 561 events )
xisEventFitsUtil: rename ./filefnD0nC-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 563
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 562/563
[ 2] XISreadExp version 1.6
| OK: 562/562
[ 3] XISreadEvent version 2.7
| OK: 561/562 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 561/561
[ 5] XISeditEventFits version 2.1
| OK: 561/561
GET: 561
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
562 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
562 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
562 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
561 : XIScoord:ENTRY
561 : XIScoord:OK
1 : XISeditEventFits:BEGIN
561 : XISeditEventFits:ENTRY
561 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 149/5000
buffer size : 120000
buffer used : 3744
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 28 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 12 12 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 35 35 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 561 1122 SINGLE
XIS:PPUX 4 4 561 1122 SINGLE
XIS:PPUY 4 4 561 1122 SINGLE
XIS:RAWX 4 4 1122 561 SINGLE
XIS:RAWY 4 4 1122 561 SINGLE
XIS:ACTX 4 4 1122 561 SINGLE
XIS:ACTY 4 4 1122 561 SINGLE
XIS:DETX 4 4 1122 561 SINGLE
XIS:DETY 4 4 1122 561 SINGLE
XIS:PHAS 4 4 561 561 SINGLE
XIS:AEDATE 4 4 561 561 FAMILY
XIS:EXPTIME 4 4 561 561 FAMILY
XIS:EXPTIME_AETIME 8 8 561 561 SINGLE
XIS:S_TIME 8 8 561 561 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 561 561 FAMILY
XIS:EVENT_SEQ_NO 4 4 561 561 SINGLE
XIS:TIME 8 8 561 1122 SINGLE
XIS:HOTPIXELS:AP4N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y2 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:NOM_PNT 5 5 1 0 SINGLE
XIS:HOTPIXELS:SEQPNUM 4 4 1 0 SINGLE
XIS:HOTPIXELS:PROCVER 10 10 1 0 SINGLE
XIS:HOTPIXELS:MK1STVER 19 19 1 0 SINGLE
XIS:HOTPIXELS:SOFTVER 44 44 1 0 SINGLE
XIS:HOTPIXELS:CALDBVER 49 49 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 563 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.005 0.003 0.008 8.33
[ 2] XISreadExp 0.000 0.000 0.000 0.00
[ 3] XISreadEvent 0.010 0.000 0.010 10.42
[ 4] XIScoord 0.027 0.001 0.028 29.17
[ 5] XISeditEventFits 0.027 0.001 0.028 29.17
(others) 0.015 0.007 0.022 22.92
--------------------------------------------------------------------------
TOTAL 0.084 0.012 0.096 100.00
-> xiscoord successful on ae803005010xi1_1_dun069.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi1_2_dun069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi1_2_dun069.fff.infile,f,a,"ae803005010xi1_2_dun069.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi1_2_dun069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi1_2_dun069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 5
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN8 = 1 / minimum legal value for DETX
TLMAX8 = 1024 / maximum legal value for DETX
TCRPX8 = 512.5 / DETX reference pixel
TCRVL8 = 0.0 / DETX reference pixel value (mm)
TCDLT8 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC8 = 547.80 / DETX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for DETY
TLMAX9 = 1024 / maximum legal value for DETY
TCRPX9 = 512.5 / DETY reference pixel
TCRVL9 = 0.0 / DETY reference pixel value (mm)
TCDLT9 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC9 = 472.60 / DETY of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 4326 events )
... 10% ( 432 / 4326 events )
... 20% ( 864 / 4326 events )
... 30% ( 1296 / 4326 events )
... 40% ( 1728 / 4326 events )
... 50% ( 2160 / 4326 events )
... 60% ( 2592 / 4326 events )
... 70% ( 3024 / 4326 events )
... 80% ( 3456 / 4326 events )
... 90% ( 3888 / 4326 events )
... 100% ( 4326 / 4326 events )
xisEventFitsUtil: rename ./filesypac4-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 4328
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 4327/4328
[ 2] XISreadExp version 1.6
| OK: 4327/4327
[ 3] XISreadEvent version 2.7
| OK: 4326/4327 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 4326/4326
[ 5] XISeditEventFits version 2.1
| OK: 4326/4326
GET: 4326
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
4327 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
4327 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
4327 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
4326 : XIScoord:ENTRY
4326 : XIScoord:OK
1 : XISeditEventFits:BEGIN
4326 : XISeditEventFits:ENTRY
4326 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 149/5000
buffer size : 120000
buffer used : 3744
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 28 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 12 12 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 35 35 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 4326 8652 SINGLE
XIS:PPUX 4 4 4326 8652 SINGLE
XIS:PPUY 4 4 4326 8652 SINGLE
XIS:RAWX 4 4 8652 4326 SINGLE
XIS:RAWY 4 4 8652 4326 SINGLE
XIS:ACTX 4 4 8652 4326 SINGLE
XIS:ACTY 4 4 8652 4326 SINGLE
XIS:DETX 4 4 8652 4326 SINGLE
XIS:DETY 4 4 8652 4326 SINGLE
XIS:PHAS 4 4 4326 4326 SINGLE
XIS:AEDATE 4 4 4326 4326 FAMILY
XIS:EXPTIME 4 4 4326 4326 FAMILY
XIS:EXPTIME_AETIME 8 8 4326 4326 SINGLE
XIS:S_TIME 8 8 4326 4326 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 4326 4326 FAMILY
XIS:EVENT_SEQ_NO 4 4 4326 4326 SINGLE
XIS:TIME 8 8 4326 8652 SINGLE
XIS:HOTPIXELS:AP4N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y2 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:NOM_PNT 5 5 1 0 SINGLE
XIS:HOTPIXELS:SEQPNUM 4 4 1 0 SINGLE
XIS:HOTPIXELS:PROCVER 10 10 1 0 SINGLE
XIS:HOTPIXELS:MK1STVER 19 19 1 0 SINGLE
XIS:HOTPIXELS:SOFTVER 44 44 1 0 SINGLE
XIS:HOTPIXELS:CALDBVER 49 49 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 4328 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.009 0.004 0.013 6.77
[ 2] XISreadExp 0.000 0.002 0.002 1.04
[ 3] XISreadEvent 0.049 0.002 0.051 26.56
[ 4] XIScoord 0.032 0.003 0.035 18.23
[ 5] XISeditEventFits 0.064 0.005 0.069 35.94
(others) 0.016 0.006 0.022 11.46
--------------------------------------------------------------------------
TOTAL 0.170 0.022 0.192 100.00
-> xiscoord successful on ae803005010xi1_2_dun069.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi3_1_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi3_1_dun066.fff.infile,f,a,"ae803005010xi3_1_dun066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_1_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_1_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 5
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN8 = 1 / minimum legal value for DETX
TLMAX8 = 1024 / maximum legal value for DETX
TCRPX8 = 512.5 / DETX reference pixel
TCRVL8 = 0.0 / DETX reference pixel value (mm)
TCDLT8 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC8 = 468.60 / DETX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for DETY
TLMAX9 = 1024 / maximum legal value for DETY
TCRPX9 = 512.5 / DETY reference pixel
TCRVL9 = 0.0 / DETY reference pixel value (mm)
TCDLT9 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC9 = 545.70 / DETY of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 549 events )
... 10% ( 54 / 549 events )
... 20% ( 108 / 549 events )
... 30% ( 162 / 549 events )
... 40% ( 216 / 549 events )
... 50% ( 270 / 549 events )
... 60% ( 324 / 549 events )
... 70% ( 378 / 549 events )
... 80% ( 432 / 549 events )
... 90% ( 486 / 549 events )
... 100% ( 549 / 549 events )
xisEventFitsUtil: rename ./fileOqNssL-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 551
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 550/551
[ 2] XISreadExp version 1.6
| OK: 550/550
[ 3] XISreadEvent version 2.7
| OK: 549/550 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 549/549
[ 5] XISeditEventFits version 2.1
| OK: 549/549
GET: 549
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
550 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
550 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
550 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
549 : XIScoord:ENTRY
549 : XIScoord:OK
1 : XISeditEventFits:BEGIN
549 : XISeditEventFits:ENTRY
549 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 149/5000
buffer size : 120000
buffer used : 3744
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 28 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 12 12 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 35 35 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 549 1098 SINGLE
XIS:PPUX 4 4 549 1098 SINGLE
XIS:PPUY 4 4 549 1098 SINGLE
XIS:RAWX 4 4 1098 549 SINGLE
XIS:RAWY 4 4 1098 549 SINGLE
XIS:ACTX 4 4 1098 549 SINGLE
XIS:ACTY 4 4 1098 549 SINGLE
XIS:DETX 4 4 1098 549 SINGLE
XIS:DETY 4 4 1098 549 SINGLE
XIS:PHAS 4 4 549 549 SINGLE
XIS:AEDATE 4 4 549 549 FAMILY
XIS:EXPTIME 4 4 549 549 FAMILY
XIS:EXPTIME_AETIME 8 8 549 549 SINGLE
XIS:S_TIME 8 8 549 549 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 549 549 FAMILY
XIS:EVENT_SEQ_NO 4 4 549 549 SINGLE
XIS:TIME 8 8 549 1098 SINGLE
XIS:HOTPIXELS:AP4N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y2 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:NOM_PNT 5 5 1 0 SINGLE
XIS:HOTPIXELS:SEQPNUM 4 4 1 0 SINGLE
XIS:HOTPIXELS:PROCVER 10 10 1 0 SINGLE
XIS:HOTPIXELS:MK1STVER 19 19 1 0 SINGLE
XIS:HOTPIXELS:SOFTVER 44 44 1 0 SINGLE
XIS:HOTPIXELS:CALDBVER 49 49 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 551 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.006 0.001 0.007 7.37
[ 2] XISreadExp 0.000 0.001 0.001 1.05
[ 3] XISreadEvent 0.005 0.001 0.006 6.32
[ 4] XIScoord 0.025 0.003 0.028 29.47
[ 5] XISeditEventFits 0.027 0.003 0.030 31.58
(others) 0.018 0.005 0.023 24.21
--------------------------------------------------------------------------
TOTAL 0.081 0.014 0.095 100.00
-> xiscoord successful on ae803005010xi3_1_dun066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae803005010xi3_2_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae803005010xi3_2_dun066.fff.infile,f,a,"ae803005010xi3_2_dun066.sff",,,"input event FITS file" outfile,f,a,"xiscoord_out.evt",,,"output event FITS file" ignore_frames,b,h,yes,,,"Flag to ignore FRAMES extension" attitude,f,a,"ae803005010.att",,,"attitude file, or EULER" ea1,r,a,0,,,"1st XYZ-Euler angle (deg)" ea2,r,a,0,,,"2nd XYZ-Euler angle (deg)" ea3,r,a,0,,,"3rd XYZ-Euler angle (deg)" pointing,s,a,"KEY",,,"pointing type, KEY/USER" ref_alpha,r,a,0,,,"R.A. of the sky reference position" ref_delta,r,a,0,,,"DEC. of the sky reference position" ref_roll,r,h,0,,,"roll angle of the sky reference" teldef,f,h,"CALDB",,,"teldef file name" aberration,b,h,yes,,,"correct aberration" rand_seed,i,h,7,,,"random number seed" rand_skip,r,h,0,,,"random number skip" blank,i,h,-999,,,"Value of NULL to use" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from xiscoord
xiscoord version 2007-05-14
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] XISreadFrame version 1.6
[ 2] XISreadExp version 1.6
[ 3] XISreadEvent version 2.7
[ 4] XIScoord version 2.7
[ 5] XISeditEventFits version 2.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
ANL: *** XISreadFrame show parameter ***
INFILE ae803005010xi3_2_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae803005010xi3_2_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae803005010.att'
SKYREF (186.3492, 18.1851, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 5
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN8 = 1 / minimum legal value for DETX
TLMAX8 = 1024 / maximum legal value for DETX
TCRPX8 = 512.5 / DETX reference pixel
TCRVL8 = 0.0 / DETX reference pixel value (mm)
TCDLT8 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC8 = 468.60 / DETX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for DETY
TLMAX9 = 1024 / maximum legal value for DETY
TCRPX9 = 512.5 / DETY reference pixel
TCRVL9 = 0.0 / DETY reference pixel value (mm)
TCDLT9 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC9 = 545.70 / DETY of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 3795 events )
... 10% ( 379 / 3795 events )
... 20% ( 758 / 3795 events )
... 30% ( 1137 / 3795 events )
... 40% ( 1516 / 3795 events )
... 50% ( 1895 / 3795 events )
... 60% ( 2274 / 3795 events )
... 70% ( 2653 / 3795 events )
... 80% ( 3032 / 3795 events )
... 90% ( 3411 / 3795 events )
... 100% ( 3795 / 3795 events )
xisEventFitsUtil: rename ./file5bJ3da-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 3797
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 3796/3797
[ 2] XISreadExp version 1.6
| OK: 3796/3796
[ 3] XISreadEvent version 2.7
| OK: 3795/3796 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 3795/3795
[ 5] XISeditEventFits version 2.1
| OK: 3795/3795
GET: 3795
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
3796 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
3796 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
3796 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
3795 : XIScoord:ENTRY
3795 : XIScoord:OK
1 : XISeditEventFits:BEGIN
3795 : XISeditEventFits:ENTRY
3795 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 149/5000
buffer size : 120000
buffer used : 3744
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 28 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 12 12 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 18 18 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 35 35 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 3795 7590 SINGLE
XIS:PPUX 4 4 3795 7590 SINGLE
XIS:PPUY 4 4 3795 7590 SINGLE
XIS:RAWX 4 4 7590 3795 SINGLE
XIS:RAWY 4 4 7590 3795 SINGLE
XIS:ACTX 4 4 7590 3795 SINGLE
XIS:ACTY 4 4 7590 3795 SINGLE
XIS:DETX 4 4 7590 3795 SINGLE
XIS:DETY 4 4 7590 3795 SINGLE
XIS:PHAS 4 4 3795 3795 SINGLE
XIS:AEDATE 4 4 3795 3795 FAMILY
XIS:EXPTIME 4 4 3795 3795 FAMILY
XIS:EXPTIME_AETIME 8 8 3795 3795 SINGLE
XIS:S_TIME 8 8 3795 3795 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 3795 3795 FAMILY
XIS:EVENT_SEQ_NO 4 4 3795 3795 SINGLE
XIS:TIME 8 8 3795 7590 SINGLE
XIS:HOTPIXELS:AP4N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP4Y2 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256N 4 4 1 0 SINGLE
XIS:HOTPIXELS:AP256Y1 4 4 1 0 SINGLE
XIS:HOTPIXELS:NOM_PNT 5 5 1 0 SINGLE
XIS:HOTPIXELS:SEQPNUM 4 4 1 0 SINGLE
XIS:HOTPIXELS:PROCVER 10 10 1 0 SINGLE
XIS:HOTPIXELS:MK1STVER 19 19 1 0 SINGLE
XIS:HOTPIXELS:SOFTVER 44 44 1 0 SINGLE
XIS:HOTPIXELS:CALDBVER 49 49 1 0 SINGLE
XIS:EVENTS:LIST:PTR 4 4 1 1 SINGLE
XIS:EVENTS:LIST:NUM 4 4 1 1 SINGLE
XIS:EVENTS:LIST:MAXSIZE 4 4 1 1 SINGLE
XIS:EVENTS:AEDATE 4 0 0 0 FAMILY
XIS:EVENTS:EXPTIME 4 0 0 0 FAMILY
XIS:EVENTS:EXPOSURE_SEQ_NO 4 0 0 0 FAMILY
XIS:READEVENT:ALLPROCESSED 4 4 2 3797 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.008 0.001 0.009 5.08
[ 2] XISreadExp 0.000 0.001 0.001 0.57
[ 3] XISreadEvent 0.043 0.005 0.048 27.12
[ 4] XIScoord 0.028 0.004 0.032 18.08
[ 5] XISeditEventFits 0.058 0.007 0.065 36.72
(others) 0.016 0.006 0.022 12.43
--------------------------------------------------------------------------
TOTAL 0.153 0.024 0.177 100.00
-> xiscoord successful on ae803005010xi3_2_dun066.sff.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae803005010xi0_2_conf_uf.gti from ae803005010xi0_2_3x3n066z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae803005010xi0_3_conf_uf.gti from ae803005010xi0_3_3x3n066z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae803005010xi0_0_3x3n066a_cl.evt
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S0_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.673386750000000E+08 2.673416180000000E+08 2.673444280000000E+08 2.673476480000000E+08 2.673501810000000E+08 2.673534010000000E+08 2.673559340000000E+08 2.673591536785343E+08 2.673616860000000E+08 2.673649060000000E+08 2.673674390000000E+08 2.673706590000000E+08 2.673731920000000E+08 2.673764120000000E+08 2.673789450000000E+08 2.673821650000000E+08 2.673846976749884E+08 2.673879180000000E+08 2.673904500000000E+08 2.673936710000000E+08 2.673962030000000E+08 2.673994240000000E+08 2.674019560000000E+08 2.674038610000000E+08 2.674077090000000E+08 2.674097260000000E+08 2.674134620000000E+08 2.674156600000000E+08 2.674192140000000E+08 2.674217720000000E+08 2.674249670000000E+08 2.674279290000000E+08 2.674307200000000E+08 2.674339410000000E+08 2.674364730000000E+08 2.674396940000000E+08 2.674422250000000E+08 2.674454470000000E+08 2.674479776667551E+08 2.674511990000000E+08 2.674537310000000E+08 2.674569520000000E+08 2.674594830000000E+08 2.674627050000000E+08 2.674652360000000E+08 2.674684576643294E+08 2.674709890000000E+08 2.674742110000000E+08 2.674767420000000E+08 2.674799640000000E+08 2.674824940000000E+08 2.674844680000000E+08 2.674854950000000E+08 2.674857170000000E+08 2.674882470000000E+08 2.674900680000000E+08 2.674940000000000E+08 2.674959830000000E+08 2.674997530000000E+08 2.675019180000000E+08 2.675055050000000E+08 2.675080940000000E+08 2.675112580000000E+08 2.675142360000000E+08 2.675170110000000E+08 2.675202340000000E+08 2.675227640000000E+08 2.675259870000000E+08 2.675285160000000E+08 2.675317400000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_1_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
34962 29072 0 5890 0 0 0
Writing events file
29072 events written to the output file
Doing file: ae803005010xi0_2_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
27578 22138 0 5440 0 0 0
Writing events file
51210 events written to the output file
Doing file: ae803005010xi0_3_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
1519 1121 0 398 0 0 0
Writing events file
52331 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
64059 52331 0 11728 0 0 0
in 86021. seconds
-> Running cleansis.datafile,s,h,"ae803005010xi0_0_3x3n066a_cl.evt",,,"Name of SIS file to be cleaned (input)" outfile,s,h,"cleansis.tmp",,,"Name for cleaned event file (output)" cellsize,i,h,5,,,"Poisson clean cell size (odd integer > 1; e.g. 5)" logprob,r,h,-5.3,,,"Log Poisson probability threshold (e.g. -5.3)" bthresh,i,h,3,,,"Zero background threshold ( > )" phamin,i,h,0,,,"Minimum PHA value for clean (inclusive)" phamax,i,h,4095,,,"Maximum PHA value for clean (inclusive)" iterate,b,h,yes,,,"Iterate the Poisson clean?" zeroedge,b,h,no,,,"Zero chip edge pixels?" dirtysis,b,h,no,,,"Write out the DIRTY (not clean) pixels to the output file?" verbose,b,h,no,,,"Write informational messages to screen?" summary,b,h,yes,,,"Write result summary to screen?" rawxcol,s,h,"RAWX",,,"Raw X coordinate column name" rawycol,s,h,"RAWY",,,"Raw Y coordinate column name" chipcol,s,h,"SEGMENT",,,"Chip column name" timecol,s,h,"TIME",,,"Time column name" detxcol,s,h,"DETX",,,"Det X coordinate column name" detycol,s,h,"DETY",,,"Det Y coordinate column name" skyxcol,s,h,"X",,,"Sky X coordinate column name" skyycol,s,h,"Y",,,"Sky Y coordinate column name" phacol,s,h,"PHA",,,"PHA column name" clobber,b,h,no,,,"Overwrite existing output file? (CAUTION!)" mode,s,h,"hl",,,""-> stdout output from cleansis
CLEANSIS_V1.7
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
Poisson clean cell size : 5
Poisson probability threshold : 0.501E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : T
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
Total counts in chip images : 52331
cleaning chip # 0
Hot pixels & counts : 7 10190
Flickering pixels iter, pixels & cnts : 1 26 151
cleaning chip # 1
Hot pixels & counts : 3 10355
Flickering pixels iter, pixels & cnts : 1 12 79
cleaning chip # 2
Hot pixels & counts : 2 7133
Flickering pixels iter, pixels & cnts : 1 22 110
cleaning chip # 3
Hot pixels & counts : 2 598
Flickering pixels iter, pixels & cnts : 1 15 82
Number of pixels rejected : 89
Number of (internal) image counts : 52331
Number of image cts rejected (N, %) : 28698 54.84
By chip : 0 1 2 3
Pixels rejected : 33 15 24 17
Image counts : 16301 16133 13093 6804
Image cts rejected: 10341 10434 7243 680
Image cts rej (%) : 63.44 64.67 55.32 9.99
Total counts : 16301 16133 13093 6804
Total cts rejected: 10341 10434 7243 680
Total cts rej (%) : 63.44 64.67 55.32 9.99
Number of clean counts accepted : 23633
Number of rejected pixels : 89
-> cleansis successful on ae803005010xi0_0_3x3n066a_cl.evt.((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S0_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.673386750000000E+08 2.673416180000000E+08 2.673444280000000E+08 2.673476480000000E+08 2.673501810000000E+08 2.673534010000000E+08 2.673559340000000E+08 2.673591536785343E+08 2.673616860000000E+08 2.673649060000000E+08 2.673674390000000E+08 2.673706590000000E+08 2.673731920000000E+08 2.673764120000000E+08 2.673789450000000E+08 2.673821650000000E+08 2.673846976749884E+08 2.673879180000000E+08 2.673904500000000E+08 2.673936710000000E+08 2.673962030000000E+08 2.673994240000000E+08 2.674019560000000E+08 2.674038610000000E+08 2.674077090000000E+08 2.674097260000000E+08 2.674134620000000E+08 2.674156600000000E+08 2.674192140000000E+08 2.674217720000000E+08 2.674249670000000E+08 2.674279290000000E+08 2.674307200000000E+08 2.674339410000000E+08 2.674364730000000E+08 2.674396940000000E+08 2.674422250000000E+08 2.674454470000000E+08 2.674479776667551E+08 2.674511990000000E+08 2.674537310000000E+08 2.674569520000000E+08 2.674594830000000E+08 2.674627050000000E+08 2.674652360000000E+08 2.674684576643294E+08 2.674709890000000E+08 2.674742110000000E+08 2.674767420000000E+08 2.674799640000000E+08 2.674824940000000E+08 2.674844680000000E+08 2.674854950000000E+08 2.674857170000000E+08 2.674882470000000E+08 2.674900680000000E+08 2.674940000000000E+08 2.674959830000000E+08 2.674997530000000E+08 2.675019180000000E+08 2.675055050000000E+08 2.675080940000000E+08 2.675112580000000E+08 2.675142360000000E+08 2.675170110000000E+08 2.675202340000000E+08 2.675227640000000E+08 2.675259870000000E+08 2.675285160000000E+08 2.675317400000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_1_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
3655 2168 0 1487 0 0 0
Writing events file
2168 events written to the output file
Doing file: ae803005010xi0_2_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
7209 4615 0 2594 0 0 0
Writing events file
6783 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10864 6783 0 4081 0 0 0
in 13047. seconds
-> Running cleansis.datafile,s,h,"ae803005010xi0_0_5x5n066a_cl.evt",,,"Name of SIS file to be cleaned (input)" outfile,s,h,"cleansis.tmp",,,"Name for cleaned event file (output)" cellsize,i,h,5,,,"Poisson clean cell size (odd integer > 1; e.g. 5)" logprob,r,h,-5.3,,,"Log Poisson probability threshold (e.g. -5.3)" bthresh,i,h,3,,,"Zero background threshold ( > )" phamin,i,h,0,,,"Minimum PHA value for clean (inclusive)" phamax,i,h,4095,,,"Maximum PHA value for clean (inclusive)" iterate,b,h,yes,,,"Iterate the Poisson clean?" zeroedge,b,h,no,,,"Zero chip edge pixels?" dirtysis,b,h,no,,,"Write out the DIRTY (not clean) pixels to the output file?" verbose,b,h,no,,,"Write informational messages to screen?" summary,b,h,yes,,,"Write result summary to screen?" rawxcol,s,h,"RAWX",,,"Raw X coordinate column name" rawycol,s,h,"RAWY",,,"Raw Y coordinate column name" chipcol,s,h,"SEGMENT",,,"Chip column name" timecol,s,h,"TIME",,,"Time column name" detxcol,s,h,"DETX",,,"Det X coordinate column name" detycol,s,h,"DETY",,,"Det Y coordinate column name" skyxcol,s,h,"X",,,"Sky X coordinate column name" skyycol,s,h,"Y",,,"Sky Y coordinate column name" phacol,s,h,"PHA",,,"PHA column name" clobber,b,h,no,,,"Overwrite existing output file? (CAUTION!)" mode,s,h,"hl",,,""-> stdout output from cleansis
CLEANSIS_V1.7
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
Poisson clean cell size : 5
Poisson probability threshold : 0.501E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : T
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
Total counts in chip images : 6783
cleaning chip # 0
Hot pixels & counts : 5 1232
Flickering pixels iter, pixels & cnts : 1 2 9
cleaning chip # 1
Hot pixels & counts : 2 780
cleaning chip # 2
Hot pixels & counts : 2 1102
cleaning chip # 3
Hot pixels & counts : 1 46
Flickering pixels iter, pixels & cnts : 1 2 11
Number of pixels rejected : 14
Number of (internal) image counts : 6783
Number of image cts rejected (N, %) : 3180 46.88
By chip : 0 1 2 3
Pixels rejected : 7 2 2 3
Image counts : 2141 1692 1965 985
Image cts rejected: 1241 780 1102 57
Image cts rej (%) : 57.96 46.10 56.08 5.79
Total counts : 2141 1692 1965 985
Total cts rejected: 1241 780 1102 57
Total cts rej (%) : 57.96 46.10 56.08 5.79
Number of clean counts accepted : 3603
Number of rejected pixels : 14
-> cleansis successful on ae803005010xi0_0_5x5n066a_cl.evt.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae803005010xi1_2_conf_uf.gti from ae803005010xi1_2_3x3n069z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae803005010xi1_3_conf_uf.gti from ae803005010xi1_3_3x3n069z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae803005010xi1_0_3x3n069b_cl.evt
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S1_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.673386750000000E+08 2.673416180000000E+08 2.673444280000000E+08 2.673476480000000E+08 2.673501810000000E+08 2.673534010000000E+08 2.673559340000000E+08 2.673591536785343E+08 2.673616860000000E+08 2.673649060000000E+08 2.673674390000000E+08 2.673706590000000E+08 2.673731920000000E+08 2.673764120000000E+08 2.673789450000000E+08 2.673821650000000E+08 2.673846976749884E+08 2.673879180000000E+08 2.673904500000000E+08 2.673936710000000E+08 2.673962030000000E+08 2.673994240000000E+08 2.674019560000000E+08 2.674038610000000E+08 2.674077090000000E+08 2.674097260000000E+08 2.674134620000000E+08 2.674156600000000E+08 2.674192140000000E+08 2.674217720000000E+08 2.674249670000000E+08 2.674279290000000E+08 2.674307200000000E+08 2.674339410000000E+08 2.674364730000000E+08 2.674396940000000E+08 2.674422250000000E+08 2.674454470000000E+08 2.674479776667551E+08 2.674511990000000E+08 2.674537310000000E+08 2.674569520000000E+08 2.674594830000000E+08 2.674627050000000E+08 2.674652360000000E+08 2.674684576643294E+08 2.674709890000000E+08 2.674742110000000E+08 2.674767420000000E+08 2.674799640000000E+08 2.674824940000000E+08 2.674844680000000E+08 2.674854950000000E+08 2.674857170000000E+08 2.674882470000000E+08 2.674900680000000E+08 2.674940000000000E+08 2.674959830000000E+08 2.674997530000000E+08 2.675019180000000E+08 2.675055050000000E+08 2.675080940000000E+08 2.675112580000000E+08 2.675142360000000E+08 2.675170110000000E+08 2.675202340000000E+08 2.675227640000000E+08 2.675259870000000E+08 2.675285160000000E+08 2.675317400000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_1_3x3n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
221053 183006 0 38047 0 0 0
Writing events file
183006 events written to the output file
Doing file: ae803005010xi1_2_3x3n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
202612 152445 0 50167 0 0 0
Writing events file
335451 events written to the output file
Doing file: ae803005010xi1_3_3x3n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
13372 9200 0 4172 0 0 0
Writing events file
344651 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
437037 344651 0 92386 0 0 0
in 86021. seconds
-> Running cleansis.datafile,s,h,"ae803005010xi1_0_3x3n069b_cl.evt",,,"Name of SIS file to be cleaned (input)" outfile,s,h,"cleansis.tmp",,,"Name for cleaned event file (output)" cellsize,i,h,5,,,"Poisson clean cell size (odd integer > 1; e.g. 5)" logprob,r,h,-5.3,,,"Log Poisson probability threshold (e.g. -5.3)" bthresh,i,h,3,,,"Zero background threshold ( > )" phamin,i,h,0,,,"Minimum PHA value for clean (inclusive)" phamax,i,h,4095,,,"Maximum PHA value for clean (inclusive)" iterate,b,h,yes,,,"Iterate the Poisson clean?" zeroedge,b,h,no,,,"Zero chip edge pixels?" dirtysis,b,h,no,,,"Write out the DIRTY (not clean) pixels to the output file?" verbose,b,h,no,,,"Write informational messages to screen?" summary,b,h,yes,,,"Write result summary to screen?" rawxcol,s,h,"RAWX",,,"Raw X coordinate column name" rawycol,s,h,"RAWY",,,"Raw Y coordinate column name" chipcol,s,h,"SEGMENT",,,"Chip column name" timecol,s,h,"TIME",,,"Time column name" detxcol,s,h,"DETX",,,"Det X coordinate column name" detycol,s,h,"DETY",,,"Det Y coordinate column name" skyxcol,s,h,"X",,,"Sky X coordinate column name" skyycol,s,h,"Y",,,"Sky Y coordinate column name" phacol,s,h,"PHA",,,"PHA column name" clobber,b,h,no,,,"Overwrite existing output file? (CAUTION!)" mode,s,h,"hl",,,""-> stdout output from cleansis
CLEANSIS_V1.7
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
Poisson clean cell size : 5
Poisson probability threshold : 0.501E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : T
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
File NEVENTS keyword value : 344651
Total counts in chip images : 344645
cleaning chip # 0
Hot pixels & counts : 31 36581
Flickering pixels iter, pixels & cnts : 1 1013 10653
Flickering pixels iter, pixels & cnts : 2 43 175
cleaning chip # 1
Hot pixels & counts : 34 52868
Flickering pixels iter, pixels & cnts : 1 1014 13092
Flickering pixels iter, pixels & cnts : 2 44 180
cleaning chip # 2
Hot pixels & counts : 28 47166
Flickering pixels iter, pixels & cnts : 1 1116 12425
Flickering pixels iter, pixels & cnts : 2 42 187
Flickering pixels iter, pixels & cnts : 3 1 3
cleaning chip # 3
Hot pixels & counts : 30 53214
Flickering pixels iter, pixels & cnts : 1 1013 12222
Flickering pixels iter, pixels & cnts : 2 40 175
Flickering pixels iter, pixels & cnts : 3 3 10
Number of pixels rejected : 4452
Number of (internal) image counts : 344645
Number of image cts rejected (N, %) : 238951 69.33
By chip : 0 1 2 3
Pixels rejected : 1087 1092 1187 1086
Image counts : 73233 93239 87369 90804
Image cts rejected: 47409 66140 59781 65621
Image cts rej (%) : 64.74 70.94 68.42 72.27
Total counts : 73234 93240 87369 90808
Total cts rejected: 47409 66140 59781 65621
Total cts rej (%) : 64.74 70.94 68.42 72.26
Number of clean counts accepted : 105700
Number of rejected pixels : 4452
-> cleansis successful on ae803005010xi1_0_3x3n069b_cl.evt.((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S1_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.673386750000000E+08 2.673416180000000E+08 2.673444280000000E+08 2.673476480000000E+08 2.673501810000000E+08 2.673534010000000E+08 2.673559340000000E+08 2.673591536785343E+08 2.673616860000000E+08 2.673649060000000E+08 2.673674390000000E+08 2.673706590000000E+08 2.673731920000000E+08 2.673764120000000E+08 2.673789450000000E+08 2.673821650000000E+08 2.673846976749884E+08 2.673879180000000E+08 2.673904500000000E+08 2.673936710000000E+08 2.673962030000000E+08 2.673994240000000E+08 2.674019560000000E+08 2.674038610000000E+08 2.674077090000000E+08 2.674097260000000E+08 2.674134620000000E+08 2.674156600000000E+08 2.674192140000000E+08 2.674217720000000E+08 2.674249670000000E+08 2.674279290000000E+08 2.674307200000000E+08 2.674339410000000E+08 2.674364730000000E+08 2.674396940000000E+08 2.674422250000000E+08 2.674454470000000E+08 2.674479776667551E+08 2.674511990000000E+08 2.674537310000000E+08 2.674569520000000E+08 2.674594830000000E+08 2.674627050000000E+08 2.674652360000000E+08 2.674684576643294E+08 2.674709890000000E+08 2.674742110000000E+08 2.674767420000000E+08 2.674799640000000E+08 2.674824940000000E+08 2.674844680000000E+08 2.674854950000000E+08 2.674857170000000E+08 2.674882470000000E+08 2.674900680000000E+08 2.674940000000000E+08 2.674959830000000E+08 2.674997530000000E+08 2.675019180000000E+08 2.675055050000000E+08 2.675080940000000E+08 2.675112580000000E+08 2.675142360000000E+08 2.675170110000000E+08 2.675202340000000E+08 2.675227640000000E+08 2.675259870000000E+08 2.675285160000000E+08 2.675317400000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_1_5x5n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
40474 15024 0 25450 0 0 0
Writing events file
15024 events written to the output file
Doing file: ae803005010xi1_2_5x5n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
77419 36186 0 41233 0 0 0
Writing events file
51210 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
117893 51210 0 66683 0 0 0
in 13047. seconds
-> Running cleansis.datafile,s,h,"ae803005010xi1_0_5x5n069b_cl.evt",,,"Name of SIS file to be cleaned (input)" outfile,s,h,"cleansis.tmp",,,"Name for cleaned event file (output)" cellsize,i,h,5,,,"Poisson clean cell size (odd integer > 1; e.g. 5)" logprob,r,h,-5.3,,,"Log Poisson probability threshold (e.g. -5.3)" bthresh,i,h,3,,,"Zero background threshold ( > )" phamin,i,h,0,,,"Minimum PHA value for clean (inclusive)" phamax,i,h,4095,,,"Maximum PHA value for clean (inclusive)" iterate,b,h,yes,,,"Iterate the Poisson clean?" zeroedge,b,h,no,,,"Zero chip edge pixels?" dirtysis,b,h,no,,,"Write out the DIRTY (not clean) pixels to the output file?" verbose,b,h,no,,,"Write informational messages to screen?" summary,b,h,yes,,,"Write result summary to screen?" rawxcol,s,h,"RAWX",,,"Raw X coordinate column name" rawycol,s,h,"RAWY",,,"Raw Y coordinate column name" chipcol,s,h,"SEGMENT",,,"Chip column name" timecol,s,h,"TIME",,,"Time column name" detxcol,s,h,"DETX",,,"Det X coordinate column name" detycol,s,h,"DETY",,,"Det Y coordinate column name" skyxcol,s,h,"X",,,"Sky X coordinate column name" skyycol,s,h,"Y",,,"Sky Y coordinate column name" phacol,s,h,"PHA",,,"PHA column name" clobber,b,h,no,,,"Overwrite existing output file? (CAUTION!)" mode,s,h,"hl",,,""-> stdout output from cleansis
CLEANSIS_V1.7
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
Poisson clean cell size : 5
Poisson probability threshold : 0.501E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : T
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
Total counts in chip images : 51210
cleaning chip # 0
Hot pixels & counts : 22 5446
Flickering pixels iter, pixels & cnts : 1 159 1045
Flickering pixels iter, pixels & cnts : 2 1 3
cleaning chip # 1
Hot pixels & counts : 27 8826
Flickering pixels iter, pixels & cnts : 1 178 1468
Flickering pixels iter, pixels & cnts : 2 2 6
cleaning chip # 2
Hot pixels & counts : 18 5464
Flickering pixels iter, pixels & cnts : 1 156 971
Flickering pixels iter, pixels & cnts : 2 3 9
cleaning chip # 3
Hot pixels & counts : 23 9598
Flickering pixels iter, pixels & cnts : 1 167 1121
Flickering pixels iter, pixels & cnts : 2 2 6
Number of pixels rejected : 758
Number of (internal) image counts : 51210
Number of image cts rejected (N, %) : 33963 66.32
By chip : 0 1 2 3
Pixels rejected : 182 207 177 192
Image counts : 10768 14552 10998 14892
Image cts rejected: 6494 10300 6444 10725
Image cts rej (%) : 60.31 70.78 58.59 72.02
Total counts : 10768 14552 10998 14892
Total cts rejected: 6494 10300 6444 10725
Total cts rej (%) : 60.31 70.78 58.59 72.02
Number of clean counts accepted : 17247
Number of rejected pixels : 758
-> cleansis successful on ae803005010xi1_0_5x5n069b_cl.evt.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae803005010xi3_2_conf_uf.gti from ae803005010xi3_2_3x3n066z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae803005010xi3_3_conf_uf.gti from ae803005010xi3_3_3x3n066z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae803005010xi3_0_3x3n066a_cl.evt
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S3_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.673386750000000E+08 2.673416180000000E+08 2.673444280000000E+08 2.673476480000000E+08 2.673501810000000E+08 2.673534010000000E+08 2.673559340000000E+08 2.673591536785343E+08 2.673616860000000E+08 2.673649060000000E+08 2.673674390000000E+08 2.673706590000000E+08 2.673731920000000E+08 2.673764120000000E+08 2.673789450000000E+08 2.673821650000000E+08 2.673846976749884E+08 2.673879180000000E+08 2.673904500000000E+08 2.673936710000000E+08 2.673962030000000E+08 2.673994240000000E+08 2.674019560000000E+08 2.674038610000000E+08 2.674077090000000E+08 2.674097260000000E+08 2.674134620000000E+08 2.674156600000000E+08 2.674192140000000E+08 2.674217720000000E+08 2.674249670000000E+08 2.674279290000000E+08 2.674307200000000E+08 2.674339410000000E+08 2.674364730000000E+08 2.674396940000000E+08 2.674422250000000E+08 2.674454470000000E+08 2.674479776667551E+08 2.674511990000000E+08 2.674537310000000E+08 2.674569520000000E+08 2.674594830000000E+08 2.674627050000000E+08 2.674652360000000E+08 2.674684576643294E+08 2.674709890000000E+08 2.674742110000000E+08 2.674767420000000E+08 2.674799640000000E+08 2.674824940000000E+08 2.674844680000000E+08 2.674854950000000E+08 2.674857170000000E+08 2.674882470000000E+08 2.674900680000000E+08 2.674940000000000E+08 2.674959830000000E+08 2.674997530000000E+08 2.675019180000000E+08 2.675055050000000E+08 2.675080940000000E+08 2.675112580000000E+08 2.675142360000000E+08 2.675170110000000E+08 2.675202340000000E+08 2.675227640000000E+08 2.675259870000000E+08 2.675285160000000E+08 2.675317400000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_1_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
26604 22356 0 4248 0 0 0
Writing events file
22356 events written to the output file
Doing file: ae803005010xi3_2_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
25132 20264 0 4868 0 0 0
Writing events file
42620 events written to the output file
Doing file: ae803005010xi3_3_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
1466 1138 0 328 0 0 0
Writing events file
43758 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
53202 43758 0 9444 0 0 0
in 86021. seconds
-> Running cleansis.datafile,s,h,"ae803005010xi3_0_3x3n066a_cl.evt",,,"Name of SIS file to be cleaned (input)" outfile,s,h,"cleansis.tmp",,,"Name for cleaned event file (output)" cellsize,i,h,5,,,"Poisson clean cell size (odd integer > 1; e.g. 5)" logprob,r,h,-5.3,,,"Log Poisson probability threshold (e.g. -5.3)" bthresh,i,h,3,,,"Zero background threshold ( > )" phamin,i,h,0,,,"Minimum PHA value for clean (inclusive)" phamax,i,h,4095,,,"Maximum PHA value for clean (inclusive)" iterate,b,h,yes,,,"Iterate the Poisson clean?" zeroedge,b,h,no,,,"Zero chip edge pixels?" dirtysis,b,h,no,,,"Write out the DIRTY (not clean) pixels to the output file?" verbose,b,h,no,,,"Write informational messages to screen?" summary,b,h,yes,,,"Write result summary to screen?" rawxcol,s,h,"RAWX",,,"Raw X coordinate column name" rawycol,s,h,"RAWY",,,"Raw Y coordinate column name" chipcol,s,h,"SEGMENT",,,"Chip column name" timecol,s,h,"TIME",,,"Time column name" detxcol,s,h,"DETX",,,"Det X coordinate column name" detycol,s,h,"DETY",,,"Det Y coordinate column name" skyxcol,s,h,"X",,,"Sky X coordinate column name" skyycol,s,h,"Y",,,"Sky Y coordinate column name" phacol,s,h,"PHA",,,"PHA column name" clobber,b,h,no,,,"Overwrite existing output file? (CAUTION!)" mode,s,h,"hl",,,""-> stdout output from cleansis
CLEANSIS_V1.7
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
Poisson clean cell size : 5
Poisson probability threshold : 0.501E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : T
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
Total counts in chip images : 43758
cleaning chip # 0
Hot pixels & counts : 5 8922
Flickering pixels iter, pixels & cnts : 1 16 81
cleaning chip # 1
Hot pixels & counts : 1 4285
Flickering pixels iter, pixels & cnts : 1 26 152
cleaning chip # 2
Hot pixels & counts : 2 6555
Flickering pixels iter, pixels & cnts : 1 16 96
cleaning chip # 3
Hot pixels & counts : 2 582
Flickering pixels iter, pixels & cnts : 1 19 127
Number of pixels rejected : 87
Number of (internal) image counts : 43758
Number of image cts rejected (N, %) : 20800 47.53
By chip : 0 1 2 3
Pixels rejected : 21 27 18 21
Image counts : 15255 9923 12473 6107
Image cts rejected: 9003 4437 6651 709
Image cts rej (%) : 59.02 44.71 53.32 11.61
Total counts : 15255 9923 12473 6107
Total cts rejected: 9003 4437 6651 709
Total cts rej (%) : 59.02 44.71 53.32 11.61
Number of clean counts accepted : 22958
Number of rejected pixels : 87
-> cleansis successful on ae803005010xi3_0_3x3n066a_cl.evt.((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S3_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.673386750000000E+08 2.673416180000000E+08 2.673444280000000E+08 2.673476480000000E+08 2.673501810000000E+08 2.673534010000000E+08 2.673559340000000E+08 2.673591536785343E+08 2.673616860000000E+08 2.673649060000000E+08 2.673674390000000E+08 2.673706590000000E+08 2.673731920000000E+08 2.673764120000000E+08 2.673789450000000E+08 2.673821650000000E+08 2.673846976749884E+08 2.673879180000000E+08 2.673904500000000E+08 2.673936710000000E+08 2.673962030000000E+08 2.673994240000000E+08 2.674019560000000E+08 2.674038610000000E+08 2.674077090000000E+08 2.674097260000000E+08 2.674134620000000E+08 2.674156600000000E+08 2.674192140000000E+08 2.674217720000000E+08 2.674249670000000E+08 2.674279290000000E+08 2.674307200000000E+08 2.674339410000000E+08 2.674364730000000E+08 2.674396940000000E+08 2.674422250000000E+08 2.674454470000000E+08 2.674479776667551E+08 2.674511990000000E+08 2.674537310000000E+08 2.674569520000000E+08 2.674594830000000E+08 2.674627050000000E+08 2.674652360000000E+08 2.674684576643294E+08 2.674709890000000E+08 2.674742110000000E+08 2.674767420000000E+08 2.674799640000000E+08 2.674824940000000E+08 2.674844680000000E+08 2.674854950000000E+08 2.674857170000000E+08 2.674882470000000E+08 2.674900680000000E+08 2.674940000000000E+08 2.674959830000000E+08 2.674997530000000E+08 2.675019180000000E+08 2.675055050000000E+08 2.675080940000000E+08 2.675112580000000E+08 2.675142360000000E+08 2.675170110000000E+08 2.675202340000000E+08 2.675227640000000E+08 2.675259870000000E+08 2.675285160000000E+08 2.675317400000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_1_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
2661 1570 0 1091 0 0 0
Writing events file
1570 events written to the output file
Doing file: ae803005010xi3_2_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
6110 3704 0 2406 0 0 0
Writing events file
5274 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
8771 5274 0 3497 0 0 0
in 13047. seconds
-> Running cleansis.datafile,s,h,"ae803005010xi3_0_5x5n066a_cl.evt",,,"Name of SIS file to be cleaned (input)" outfile,s,h,"cleansis.tmp",,,"Name for cleaned event file (output)" cellsize,i,h,5,,,"Poisson clean cell size (odd integer > 1; e.g. 5)" logprob,r,h,-5.3,,,"Log Poisson probability threshold (e.g. -5.3)" bthresh,i,h,3,,,"Zero background threshold ( > )" phamin,i,h,0,,,"Minimum PHA value for clean (inclusive)" phamax,i,h,4095,,,"Maximum PHA value for clean (inclusive)" iterate,b,h,yes,,,"Iterate the Poisson clean?" zeroedge,b,h,no,,,"Zero chip edge pixels?" dirtysis,b,h,no,,,"Write out the DIRTY (not clean) pixels to the output file?" verbose,b,h,no,,,"Write informational messages to screen?" summary,b,h,yes,,,"Write result summary to screen?" rawxcol,s,h,"RAWX",,,"Raw X coordinate column name" rawycol,s,h,"RAWY",,,"Raw Y coordinate column name" chipcol,s,h,"SEGMENT",,,"Chip column name" timecol,s,h,"TIME",,,"Time column name" detxcol,s,h,"DETX",,,"Det X coordinate column name" detycol,s,h,"DETY",,,"Det Y coordinate column name" skyxcol,s,h,"X",,,"Sky X coordinate column name" skyycol,s,h,"Y",,,"Sky Y coordinate column name" phacol,s,h,"PHA",,,"PHA column name" clobber,b,h,no,,,"Overwrite existing output file? (CAUTION!)" mode,s,h,"hl",,,""-> stdout output from cleansis
CLEANSIS_V1.7
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
Poisson clean cell size : 5
Poisson probability threshold : 0.501E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : T
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
Total counts in chip images : 5274
cleaning chip # 0
Hot pixels & counts : 3 1219
Flickering pixels iter, pixels & cnts : 1 1 9
cleaning chip # 1
Hot pixels & counts : 1 19
cleaning chip # 2
Hot pixels & counts : 2 444
Flickering pixels iter, pixels & cnts : 1 1 7
cleaning chip # 3
Hot pixels & counts : 1 16
Flickering pixels iter, pixels & cnts : 1 2 10
Number of pixels rejected : 11
Number of (internal) image counts : 5274
Number of image cts rejected (N, %) : 1724 32.69
By chip : 0 1 2 3
Pixels rejected : 4 1 3 3
Image counts : 2202 891 1343 838
Image cts rejected: 1228 19 451 26
Image cts rej (%) : 55.77 2.13 33.58 3.10
Total counts : 2202 891 1343 838
Total cts rejected: 1228 19 451 26
Total cts rej (%) : 55.77 2.13 33.58 3.10
Number of clean counts accepted : 3550
Number of rejected pixels : 11
-> cleansis successful on ae803005010xi3_0_5x5n066a_cl.evt.((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287))-> Creating GTIs.
S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_2.tmp x1 x
2.673358853067076E+08 2.675330051558829E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_1_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
6825 6825 0 0 0 0 0
Writing events file
6825 events written to the output file
Doing file: ae803005010xi0_2_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
5329 5329 0 0 0 0 0
Writing events file
12154 events written to the output file
Doing file: ae803005010xi0_3_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
303 303 0 0 0 0 0
Writing events file
12457 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
12457 12457 0 0 0 0 0
in 1.03384E+05 seconds
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287))-> Creating GTIs.
S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_2.tmp x1 x
2.673358853067076E+08 2.675330051558829E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_1_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
810 810 0 0 0 0 0
Writing events file
810 events written to the output file
Doing file: ae803005010xi0_2_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
1562 1562 0 0 0 0 0
Writing events file
2372 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
2372 2372 0 0 0 0 0
in 21560. seconds
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287))-> Creating GTIs.
S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_2.tmp x1 x
2.673359173067017E+08 2.675330371558796E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_1_3x3n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
20224 20224 0 0 0 0 0
Writing events file
20224 events written to the output file
Doing file: ae803005010xi1_2_3x3n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
15049 15049 0 0 0 0 0
Writing events file
35273 events written to the output file
Doing file: ae803005010xi1_3_3x3n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
1080 1080 0 0 0 0 0
Writing events file
36353 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
36353 36353 0 0 0 0 0
in 1.03080E+05 seconds
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287))-> Creating GTIs.
S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_2.tmp x1 x
2.673359173067017E+08 2.675330371558796E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_1_5x5n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
3221 3221 0 0 0 0 0
Writing events file
3221 events written to the output file
Doing file: ae803005010xi1_2_5x5n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
6947 6947 0 0 0 0 0
Writing events file
10168 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10168 10168 0 0 0 0 0
in 21304. seconds
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287))-> Creating GTIs.
S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_2.tmp x1 x
2.673359813066901E+08 2.675331011558729E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_1_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
5168 5168 0 0 0 0 0
Writing events file
5168 events written to the output file
Doing file: ae803005010xi3_2_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
7421 7421 0 0 0 0 0
Writing events file
12589 events written to the output file
Doing file: ae803005010xi3_3_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
524 524 0 0 0 0 0
Writing events file
13113 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
13113 13113 0 0 0 0 0
in 1.03384E+05 seconds
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287))-> Creating GTIs.
S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_2.tmp x1 x
2.673359813066901E+08 2.675331011558729E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_1_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
452 452 0 0 0 0 0
Writing events file
452 events written to the output file
Doing file: ae803005010xi3_2_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287)) ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
2303 2303 0 0 0 0 0
Writing events file
2755 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
2755 2755 0 0 0 0 0
in 21560. seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_3.tmp x35 x
2.673373695574499E+08 2.673379249304162E+08 2.673379329304136E+08 2.673379409304136E+08 2.673379569304098E+08 2.673379809304073E+08 2.673380529303946E+08 2.673383560000000E+08 2.673434570000000E+08 2.673436289296054E+08 2.673436369296035E+08 2.673436929295978E+08 2.673437089295950E+08 2.673441080000000E+08 2.673660840000000E+08 2.673661089266409E+08 2.673661169266392E+08 2.673661329266383E+08 2.673671169265308E+08 2.673671190000000E+08 2.673901249235383E+08 2.673901300000000E+08 2.674131409205427E+08 2.674131410000000E+08 2.674188929198002E+08 2.674188940000000E+08 2.674246449190572E+08 2.674246470000000E+08 2.674303969183103E+08 2.674303990000000E+08 2.674361489175608E+08 2.674361520000000E+08 2.674534049153108E+08 2.674534100000000E+08 2.674879249108319E+08 2.674879260000000E+08 2.674988449094075E+08 2.674990769093825E+08 2.674991569093724E+08 2.674994310000000E+08 2.675041820000000E+08 2.675047809085996E+08 2.675047889085976E+08 2.675048129085957E+08 2.675048769085867E+08 2.675048849085867E+08 2.675048929085847E+08 2.675049409085796E+08 2.675049489085775E+08 2.675051830000000E+08 2.675100050000000E+08 2.675107809078054E+08 2.675107889078035E+08 2.675108049078026E+08 2.675108369077979E+08 2.675109009077914E+08 2.675109169077886E+08 2.675109360000000E+08 2.675159950000000E+08 2.675161889070912E+08 2.675162049070886E+08 2.675166880000000E+08 2.675219720000000E+08 2.675219969063394E+08 2.675220289063351E+08 2.675220449063343E+08 2.675220529063326E+08 2.675224410000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_1_3x3n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
342487 1438 0 341049 0 0 0
Writing events file
1438 events written to the output file
Doing file: ae803005010xi0_2_3x3n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
350161 6098 0 344063 0 0 0
Writing events file
7536 events written to the output file
Doing file: ae803005010xi0_3_3x3n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
18143 0 0 18143 0 0 0
Writing events file
7536 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
710791 7536 0 703255 0 0 0
in 723.66 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_3.tmp x x
-> Running extractor.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_3.tmp x35 x
2.673373695574499E+08 2.673379249304162E+08 2.673379329304136E+08 2.673379409304136E+08 2.673379569304098E+08 2.673379809304073E+08 2.673380529303946E+08 2.673383560000000E+08 2.673434570000000E+08 2.673436289296054E+08 2.673436369296035E+08 2.673436929295978E+08 2.673437089295950E+08 2.673441080000000E+08 2.673660840000000E+08 2.673661089266409E+08 2.673661169266392E+08 2.673661329266383E+08 2.673671169265308E+08 2.673671190000000E+08 2.673901249235383E+08 2.673901300000000E+08 2.674131409205427E+08 2.674131410000000E+08 2.674188929198002E+08 2.674188940000000E+08 2.674246449190572E+08 2.674246470000000E+08 2.674303969183103E+08 2.674303990000000E+08 2.674361489175608E+08 2.674361520000000E+08 2.674534049153108E+08 2.674534100000000E+08 2.674879249108319E+08 2.674879260000000E+08 2.674988449094075E+08 2.674990769093825E+08 2.674991569093724E+08 2.674994310000000E+08 2.675041820000000E+08 2.675047809085996E+08 2.675047889085976E+08 2.675048129085957E+08 2.675048769085867E+08 2.675048849085867E+08 2.675048929085847E+08 2.675049409085796E+08 2.675049489085775E+08 2.675051830000000E+08 2.675100050000000E+08 2.675107809078054E+08 2.675107889078035E+08 2.675108049078026E+08 2.675108369077979E+08 2.675109009077914E+08 2.675109169077886E+08 2.675109360000000E+08 2.675159950000000E+08 2.675161889070912E+08 2.675162049070886E+08 2.675166880000000E+08 2.675219720000000E+08 2.675219969063394E+08 2.675220289063351E+08 2.675220449063343E+08 2.675220529063326E+08 2.675224410000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_1_5x5n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
53532 11778 0 41754 0 0 0
Writing events file
11778 events written to the output file
Doing file: ae803005010xi0_2_5x5n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
109076 25942 0 83134 0 0 0
Writing events file
37720 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
162608 37720 0 124888 0 0 0
in 4256.5 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_3.tmp x x
-> Running extractor.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_3.tmp x35 x
2.673373695574499E+08 2.673378129304336E+08 2.673378209304312E+08 2.673378609304263E+08 2.673378689304238E+08 2.673379169304174E+08 2.673379249304149E+08 2.673379409304136E+08 2.673379489304111E+08 2.673379729304086E+08 2.673380449303959E+08 2.673381809303756E+08 2.673381889303731E+08 2.673383560000000E+08 2.673434570000000E+08 2.673436929295978E+08 2.673437009295959E+08 2.673441080000000E+08 2.673660840000000E+08 2.673661329266383E+08 2.673671089265317E+08 2.673671190000000E+08 2.673901249235383E+08 2.673901300000000E+08 2.674131409205427E+08 2.674131410000000E+08 2.674188929198002E+08 2.674188940000000E+08 2.674246449190572E+08 2.674246470000000E+08 2.674361489175608E+08 2.674361520000000E+08 2.674534049153108E+08 2.674534100000000E+08 2.674879249108319E+08 2.674879260000000E+08 2.674988529094066E+08 2.674989409093978E+08 2.674989489093960E+08 2.674990209093888E+08 2.674990289093870E+08 2.674990369093870E+08 2.674991169093770E+08 2.674991249093770E+08 2.674991409093742E+08 2.674992129093670E+08 2.674992209093651E+08 2.674993169093551E+08 2.674993249093533E+08 2.674994310000000E+08 2.675041820000000E+08 2.675047809085996E+08 2.675047889085976E+08 2.675048129085957E+08 2.675048209085937E+08 2.675048369085927E+08 2.675048449085908E+08 2.675049089085837E+08 2.675049169085816E+08 2.675051830000000E+08 2.675100050000000E+08 2.675107809078054E+08 2.675107889078035E+08 2.675107969078035E+08 2.675108209077998E+08 2.675109009077914E+08 2.675109089077895E+08 2.675109360000000E+08 2.675159950000000E+08 2.675161889070912E+08 2.675162049070886E+08 2.675166880000000E+08 2.675219720000000E+08 2.675219889063402E+08 2.675220049063377E+08 2.675220129063377E+08 2.675220209063359E+08 2.675220449063343E+08 2.675220529063326E+08 2.675220689063317E+08 2.675220769063300E+08 2.675224410000000E+08 2.675279460000000E+08 2.675281930000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_1_3x3n069z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
606088 1924 0 604164 0 0 0
Writing events file
1924 events written to the output file
Doing file: ae803005010xi1_2_3x3n069z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
613821 31379 0 582442 0 0 0
Writing events file
33303 events written to the output file
Doing file: ae803005010xi1_3_3x3n069z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
35807 0 0 35807 0 0 0
Writing events file
33303 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
1255716 33303 0 1222413 0 0 0
in 928.57 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_3.tmp x x
-> Running extractor.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_3.tmp x35 x
2.673373695574499E+08 2.673378129304336E+08 2.673378209304312E+08 2.673378609304263E+08 2.673378689304238E+08 2.673379169304174E+08 2.673379249304149E+08 2.673379409304136E+08 2.673379489304111E+08 2.673379729304086E+08 2.673380449303959E+08 2.673381809303756E+08 2.673381889303731E+08 2.673383560000000E+08 2.673434570000000E+08 2.673436929295978E+08 2.673437009295959E+08 2.673441080000000E+08 2.673660840000000E+08 2.673661329266383E+08 2.673671089265317E+08 2.673671190000000E+08 2.673901249235383E+08 2.673901300000000E+08 2.674131409205427E+08 2.674131410000000E+08 2.674188929198002E+08 2.674188940000000E+08 2.674246449190572E+08 2.674246470000000E+08 2.674361489175608E+08 2.674361520000000E+08 2.674534049153108E+08 2.674534100000000E+08 2.674879249108319E+08 2.674879260000000E+08 2.674988529094066E+08 2.674989409093978E+08 2.674989489093960E+08 2.674990209093888E+08 2.674990289093870E+08 2.674990369093870E+08 2.674991169093770E+08 2.674991249093770E+08 2.674991409093742E+08 2.674992129093670E+08 2.674992209093651E+08 2.674993169093551E+08 2.674993249093533E+08 2.674994310000000E+08 2.675041820000000E+08 2.675047809085996E+08 2.675047889085976E+08 2.675048129085957E+08 2.675048209085937E+08 2.675048369085927E+08 2.675048449085908E+08 2.675049089085837E+08 2.675049169085816E+08 2.675051830000000E+08 2.675100050000000E+08 2.675107809078054E+08 2.675107889078035E+08 2.675107969078035E+08 2.675108209077998E+08 2.675109009077914E+08 2.675109089077895E+08 2.675109360000000E+08 2.675159950000000E+08 2.675161889070912E+08 2.675162049070886E+08 2.675166880000000E+08 2.675219720000000E+08 2.675219889063402E+08 2.675220049063377E+08 2.675220129063377E+08 2.675220209063359E+08 2.675220449063343E+08 2.675220529063326E+08 2.675220689063317E+08 2.675220769063300E+08 2.675224410000000E+08 2.675279460000000E+08 2.675281930000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_1_5x5n069z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
161395 42829 0 118566 0 0 0
Writing events file
42829 events written to the output file
Doing file: ae803005010xi1_2_5x5n069z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
306187 98070 0 208117 0 0 0
Writing events file
140899 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
467582 140899 0 326683 0 0 0
in 4328.5 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_3.tmp x x
-> Running extractor.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_3.tmp x35 x
2.673373695574499E+08 2.673379409304136E+08 2.673379489304111E+08 2.673379809304073E+08 2.673380529303946E+08 2.673383560000000E+08 2.673434570000000E+08 2.673437009295969E+08 2.673437089295950E+08 2.673441080000000E+08 2.673660840000000E+08 2.673661329266383E+08 2.673671169265308E+08 2.673671190000000E+08 2.673901249235383E+08 2.673901300000000E+08 2.674131409205427E+08 2.674131410000000E+08 2.674188929198002E+08 2.674188940000000E+08 2.674246449190572E+08 2.674246470000000E+08 2.674303969183103E+08 2.674303990000000E+08 2.674361489175608E+08 2.674361520000000E+08 2.674534049153108E+08 2.674534100000000E+08 2.674879249108319E+08 2.674879260000000E+08 2.674988449094075E+08 2.674990769093825E+08 2.674991569093724E+08 2.674994310000000E+08 2.675041820000000E+08 2.675048289085937E+08 2.675048689085878E+08 2.675051830000000E+08 2.675100050000000E+08 2.675108049078026E+08 2.675108209077998E+08 2.675109360000000E+08 2.675159950000000E+08 2.675166880000000E+08 2.675219720000000E+08 2.675219969063394E+08 2.675220209063359E+08 2.675224410000000E+08 2.675279489055727E+08 2.675279809055701E+08 2.675280209055649E+08 2.675280289055649E+08 2.675280689055597E+08 2.675280769055597E+08 2.675281329055528E+08 2.675281409055528E+08 2.675281889055467E+08 2.675281930000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_1_3x3n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
342731 1643 0 341088 0 0 0
Writing events file
1643 events written to the output file
Doing file: ae803005010xi3_2_3x3n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
345347 8023 0 337324 0 0 0
Writing events file
9666 events written to the output file
Doing file: ae803005010xi3_3_3x3n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
18162 0 0 18162 0 0 0
Writing events file
9666 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
706240 9666 0 696574 0 0 0
in 807.75 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_3.tmp x x
-> Running extractor.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_3.tmp x35 x
2.673373695574499E+08 2.673379409304136E+08 2.673379489304111E+08 2.673379809304073E+08 2.673380529303946E+08 2.673383560000000E+08 2.673434570000000E+08 2.673437009295969E+08 2.673437089295950E+08 2.673441080000000E+08 2.673660840000000E+08 2.673661329266383E+08 2.673671169265308E+08 2.673671190000000E+08 2.673901249235383E+08 2.673901300000000E+08 2.674131409205427E+08 2.674131410000000E+08 2.674188929198002E+08 2.674188940000000E+08 2.674246449190572E+08 2.674246470000000E+08 2.674303969183103E+08 2.674303990000000E+08 2.674361489175608E+08 2.674361520000000E+08 2.674534049153108E+08 2.674534100000000E+08 2.674879249108319E+08 2.674879260000000E+08 2.674988449094075E+08 2.674990769093825E+08 2.674991569093724E+08 2.674994310000000E+08 2.675041820000000E+08 2.675048289085937E+08 2.675048689085878E+08 2.675051830000000E+08 2.675100050000000E+08 2.675108049078026E+08 2.675108209077998E+08 2.675109360000000E+08 2.675159950000000E+08 2.675166880000000E+08 2.675219720000000E+08 2.675219969063394E+08 2.675220209063359E+08 2.675224410000000E+08 2.675279489055727E+08 2.675279809055701E+08 2.675280209055649E+08 2.675280289055649E+08 2.675280689055597E+08 2.675280769055597E+08 2.675281329055528E+08 2.675281409055528E+08 2.675281889055467E+08 2.675281930000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_1_5x5n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
48759 9417 0 39342 0 0 0
Writing events file
9417 events written to the output file
Doing file: ae803005010xi3_2_5x5n066z_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
94630 18627 0 76003 0 0 0
Writing events file
28044 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
143389 28044 0 115345 0 0 0
in 4392.5 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_3.tmp x x
-> Running extractor.
DET_TYPE=0:0-> Using screening criteria:
SAA_HXD == 0 && T_SAA_HXD > 500 && TN_SAA_HXD > 180 && ELV > 5 && ANG_DIST < 1.5 && HXD_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && COR > 6 && HXD_HV_W0_CAL>700 && HXD_HV_W1_CAL>700 && HXD_HV_W2_CAL>700 && HXD_HV_W3_CAL>700 && HXD_HV_T0_CAL>700 && HXD_HV_T1_CAL>700 && HXD_HV_T2_CAL>700 && HXD_HV_T3_CAL>700 && HXD_WPU_CLK_RATE == 0-> gti_extractor_4.tmp x x
-> ae803005010hxd_0_gsoco_cl.evt has no GTI.
DET_TYPE=0:0-> Using screening criteria:
SAA_HXD == 0 && T_SAA_HXD > 500 && TN_SAA_HXD > 180 && ELV > 5 && ANG_DIST < 1.5 && HXD_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && COR > 6 && HXD_HV_W0_CAL>700 && HXD_HV_W1_CAL>700 && HXD_HV_W2_CAL>700 && HXD_HV_W3_CAL>700 && HXD_HV_T0_CAL>700 && HXD_HV_T1_CAL>700 && HXD_HV_T2_CAL>700 && HXD_HV_T3_CAL>700 && HXD_WPU_CLK_RATE > 1-> gti_extractor_5.tmp x x
-> ae803005010hxd_0_gsofi_cl.evt has no GTI.
DET_TYPE=0:0-> Using screening criteria:
SAA_HXD == 0 && T_SAA_HXD > 500 && TN_SAA_HXD > 180 && ELV > 5 && ANG_DIST < 1.5 && HXD_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && COR > 6 && HXD_HV_W0_CAL>700 && HXD_HV_W1_CAL>700 && HXD_HV_W2_CAL>700 && HXD_HV_W3_CAL>700 && HXD_HV_T0_CAL>700 && HXD_HV_T1_CAL>700 && HXD_HV_T2_CAL>700 && HXD_HV_T3_CAL>700 && HXD_WPU_CLK_RATE == 1-> gti_extractor_6.tmp x43 x
2.673384350000000E+08 2.673414370000000E+08 2.673441880000000E+08 2.673475570000000E+08 2.673499410000000E+08 2.673534010000000E+08 2.673556975552247E+08 2.673557055552239E+08 2.673557135549789E+08 2.673557295549772E+08 2.673557375549763E+08 2.673591536785343E+08 2.673614470000000E+08 2.673649060000000E+08 2.673671990000000E+08 2.673705536770508E+08 2.673729520000000E+08 2.673761060000000E+08 2.673787050000000E+08 2.673787260000000E+08 2.673793130000000E+08 2.673818330000000E+08 2.673844576750138E+08 2.673846180000000E+08 2.673854176749116E+08 2.673875980000000E+08 2.673902100000000E+08 2.673905350000000E+08 2.673914130000000E+08 2.673934220000000E+08 2.673959630000000E+08 2.673964656734580E+08 2.673973800000000E+08 2.673991616730849E+08 2.674017160000000E+08 2.674024976726789E+08 2.674032610000000E+08 2.674036800000000E+08 2.674074690000000E+08 2.674095450000000E+08 2.674132210000000E+08 2.674154790000000E+08 2.674189740000000E+08 2.674215910000000E+08 2.674247270000000E+08 2.674277456696313E+08 2.674304800000000E+08 2.674338590000000E+08 2.674362320000000E+08 2.674362575445031E+08 2.674362655445023E+08 2.674396940000000E+08 2.674419850000000E+08 2.674454470000000E+08 2.674477370000000E+08 2.674511990000000E+08 2.674534896660347E+08 2.674566390000000E+08 2.674592430000000E+08 2.674622850000000E+08 2.674656370000000E+08 2.674680250000000E+08 2.674707480000000E+08 2.674708690000000E+08 2.674716976637020E+08 2.674738280000000E+08 2.674765010000000E+08 2.674767870000000E+08 2.674776790000000E+08 2.674796370000000E+08 2.674822530000000E+08 2.674827376622535E+08 2.674836370000000E+08 2.674842870000000E+08 2.674880060000000E+08 2.674888130000000E+08 2.674893790000000E+08 2.674898870000000E+08 2.674937590000000E+08 2.674958020000000E+08 2.674995110000000E+08 2.675017370000000E+08 2.675052635354917E+08 2.675079130000000E+08 2.675110170000000E+08 2.675140550000000E+08 2.675167690000000E+08 2.675201600000000E+08 2.675225220000000E+08 2.675255495328422E+08 2.675255575328410E+08 2.675259870000000E+08 2.675282740000000E+08 2.675317400000000E+08-> stdout output from extractor
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
Doing file: ae803005010hxd_1_wel_uf.evt[ DET_TYPE=0:0 ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
2495894 1906920 0 588974 0 0 0
Writing events file
1906920 events written to the output file
Doing file: ae803005010hxd_2_wel_uf.evt[ DET_TYPE=0:0 ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
2232806 1577435 0 655371 0 0 0
Writing events file
3484355 events written to the output file
Doing file: ae803005010hxd_3_wel_uf.evt[ DET_TYPE=0:0 ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
114919 87120 0 27799 0 0 0
Writing events file
3571475 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
4843619 3571475 0 1272144 0 0 0
in 93445. seconds
-> Setting DETNAM keyword to WELL_GSODET_TYPE=1:1-> Using screening criteria:
SAA_HXD == 0 && T_SAA_HXD > 500 && TN_SAA_HXD > 180 && ELV > 5 && ANG_DIST < 1.5 && AOCU_HK_CNT3_NML_P==1 && COR > 6 && HXD_HV_W0_CAL>700 && HXD_HV_W1_CAL>700 && HXD_HV_W2_CAL>700 && HXD_HV_W3_CAL>700 && HXD_HV_T0_CAL>700 && HXD_HV_T1_CAL>700 && HXD_HV_T2_CAL>700 && HXD_HV_T3_CAL>700 && HXD_WPU_CLK_RATE == 0-> gti_extractor_7.tmp x x
-> ae803005010hxd_0_pinco_cl.evt has no GTI.
DET_TYPE=1:1-> Using screening criteria:
SAA_HXD == 0 && T_SAA_HXD > 500 && TN_SAA_HXD > 180 && ELV > 5 && ANG_DIST < 1.5 && AOCU_HK_CNT3_NML_P==1 && COR > 6 && HXD_HV_W0_CAL>700 && HXD_HV_W1_CAL>700 && HXD_HV_W2_CAL>700 && HXD_HV_W3_CAL>700 && HXD_HV_T0_CAL>700 && HXD_HV_T1_CAL>700 && HXD_HV_T2_CAL>700 && HXD_HV_T3_CAL>700 && HXD_WPU_CLK_RATE > 1-> gti_extractor_8.tmp x x
-> ae803005010hxd_0_pinfi_cl.evt has no GTI.
DET_TYPE=1:1-> Using screening criteria:
SAA_HXD == 0 && T_SAA_HXD > 500 && TN_SAA_HXD > 180 && ELV > 5 && ANG_DIST < 1.5 && AOCU_HK_CNT3_NML_P==1 && COR > 6 && HXD_HV_W0_CAL>700 && HXD_HV_W1_CAL>700 && HXD_HV_W2_CAL>700 && HXD_HV_W3_CAL>700 && HXD_HV_T0_CAL>700 && HXD_HV_T1_CAL>700 && HXD_HV_T2_CAL>700 && HXD_HV_T3_CAL>700 && HXD_WPU_CLK_RATE == 1-> gti_extractor_9.tmp x43 x
2.673384350000000E+08 2.673414370000000E+08 2.673441880000000E+08 2.673475570000000E+08 2.673499410000000E+08 2.673534010000000E+08 2.673556975552247E+08 2.673557055552239E+08 2.673557135549789E+08 2.673557295549772E+08 2.673557375549763E+08 2.673591536785343E+08 2.673614470000000E+08 2.673649060000000E+08 2.673671990000000E+08 2.673705536770508E+08 2.673729520000000E+08 2.673761060000000E+08 2.673787050000000E+08 2.673787260000000E+08 2.673793130000000E+08 2.673818330000000E+08 2.673844576750138E+08 2.673846180000000E+08 2.673854176749116E+08 2.673875980000000E+08 2.673902100000000E+08 2.673905350000000E+08 2.673914130000000E+08 2.673934220000000E+08 2.673959630000000E+08 2.673964656734580E+08 2.673973800000000E+08 2.673991616730849E+08 2.674017160000000E+08 2.674024976726789E+08 2.674032610000000E+08 2.674036800000000E+08 2.674074690000000E+08 2.674095450000000E+08 2.674132210000000E+08 2.674154790000000E+08 2.674189740000000E+08 2.674215910000000E+08 2.674247270000000E+08 2.674277456696313E+08 2.674304800000000E+08 2.674338590000000E+08 2.674362320000000E+08 2.674362575445031E+08 2.674362655445023E+08 2.674396940000000E+08 2.674419850000000E+08 2.674454470000000E+08 2.674477370000000E+08 2.674511990000000E+08 2.674534896660347E+08 2.674566390000000E+08 2.674592430000000E+08 2.674622850000000E+08 2.674656370000000E+08 2.674680250000000E+08 2.674707480000000E+08 2.674708690000000E+08 2.674716976637020E+08 2.674738280000000E+08 2.674765010000000E+08 2.674767870000000E+08 2.674776790000000E+08 2.674796370000000E+08 2.674822530000000E+08 2.674827376622535E+08 2.674836370000000E+08 2.674842870000000E+08 2.674880060000000E+08 2.674888130000000E+08 2.674893790000000E+08 2.674898870000000E+08 2.674937590000000E+08 2.674958020000000E+08 2.674995110000000E+08 2.675017370000000E+08 2.675052635354917E+08 2.675079130000000E+08 2.675110170000000E+08 2.675140550000000E+08 2.675167690000000E+08 2.675201600000000E+08 2.675225220000000E+08 2.675255495328422E+08 2.675255575328410E+08 2.675259870000000E+08 2.675282740000000E+08 2.675317400000000E+08-> stdout output from extractor
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
Doing file: ae803005010hxd_1_wel_uf.evt[ DET_TYPE=1:1 ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
41948 24062 0 17886 0 0 0
Writing events file
24062 events written to the output file
Doing file: ae803005010hxd_2_wel_uf.evt[ DET_TYPE=1:1 ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
37168 19536 0 17632 0 0 0
Writing events file
43598 events written to the output file
Doing file: ae803005010hxd_3_wel_uf.evt[ DET_TYPE=1:1 ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
1402 1035 0 367 0 0 0
Writing events file
44633 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
80518 44633 0 35885 0 0 0
in 93445. seconds
-> Setting DETNAM keyword to WELL_PINDET_TYPE=2:2-> Using screening criteria:
SAA_HXD == 0 && T_SAA_HXD > 500 && TN_SAA_HXD > 180 && ELV > 5 && ANG_DIST < 1.5 && AOCU_HK_CNT3_NML_P==1 && COR > 6 && HXD_HV_W0_CAL>700 && HXD_HV_W1_CAL>700 && HXD_HV_W2_CAL>700 && HXD_HV_W3_CAL>700 && HXD_HV_T0_CAL>700 && HXD_HV_T1_CAL>700 && HXD_HV_T2_CAL>700 && HXD_HV_T3_CAL>700-> gti_extractor_10.tmp x43 x
2.673384350000000E+08 2.673414370000000E+08 2.673441880000000E+08 2.673475570000000E+08 2.673499410000000E+08 2.673534010000000E+08 2.673556975552247E+08 2.673557055552239E+08 2.673557135549789E+08 2.673557295549772E+08 2.673557375549763E+08 2.673591536785343E+08 2.673614470000000E+08 2.673649060000000E+08 2.673671990000000E+08 2.673705536770508E+08 2.673729520000000E+08 2.673761060000000E+08 2.673787050000000E+08 2.673787260000000E+08 2.673793130000000E+08 2.673818330000000E+08 2.673844576750138E+08 2.673846180000000E+08 2.673854176749116E+08 2.673875980000000E+08 2.673902100000000E+08 2.673905350000000E+08 2.673914130000000E+08 2.673934220000000E+08 2.673959630000000E+08 2.673964656734580E+08 2.673973800000000E+08 2.673991616730849E+08 2.674017160000000E+08 2.674024976726789E+08 2.674032610000000E+08 2.674036800000000E+08 2.674074690000000E+08 2.674095450000000E+08 2.674132210000000E+08 2.674154790000000E+08 2.674189740000000E+08 2.674215910000000E+08 2.674247270000000E+08 2.674277456696313E+08 2.674304800000000E+08 2.674338590000000E+08 2.674362320000000E+08 2.674362575445031E+08 2.674362655445023E+08 2.674396940000000E+08 2.674419850000000E+08 2.674454470000000E+08 2.674477370000000E+08 2.674511990000000E+08 2.674534896660347E+08 2.674566390000000E+08 2.674592430000000E+08 2.674622850000000E+08 2.674656370000000E+08 2.674680250000000E+08 2.674707480000000E+08 2.674708690000000E+08 2.674716976637020E+08 2.674738280000000E+08 2.674765010000000E+08 2.674767870000000E+08 2.674776790000000E+08 2.674796370000000E+08 2.674822530000000E+08 2.674827376622535E+08 2.674836370000000E+08 2.674842870000000E+08 2.674880060000000E+08 2.674888130000000E+08 2.674893790000000E+08 2.674898870000000E+08 2.674937590000000E+08 2.674958020000000E+08 2.674995110000000E+08 2.675017370000000E+08 2.675052635354917E+08 2.675079130000000E+08 2.675110170000000E+08 2.675140550000000E+08 2.675167690000000E+08 2.675201600000000E+08 2.675225220000000E+08 2.675255495328422E+08 2.675255575328410E+08 2.675259870000000E+08 2.675282740000000E+08 2.675317400000000E+08-> stdout output from extractor
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
Doing file: ae803005010hxd_1_wel_uf.evt[ DET_TYPE=2:2 ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
384987 185704 0 199283 0 0 0
Writing events file
185704 events written to the output file
Doing file: ae803005010hxd_2_wel_uf.evt[ DET_TYPE=2:2 ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
338978 154014 0 184964 0 0 0
Writing events file
339718 events written to the output file
Doing file: ae803005010hxd_3_wel_uf.evt[ DET_TYPE=2:2 ]
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
13326 8017 0 5309 0 0 0
Writing events file
347735 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
737291 347735 0 389556 0 0 0
in 93445. seconds
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Skipping co since NAXIS2=0
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Skipping fi since NAXIS2=0
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Setting TIMEDEL keyword to 6.1e-05 s.
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Skipping co since NAXIS2=0
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Skipping fi since NAXIS2=0
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Setting TIMEDEL keyword to 6.1e-05 s.
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Skipping co since NAXIS2=0
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Skipping fi since NAXIS2=0
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Setting TIMEDEL keyword to 6.1e-05 s.
ELV < 0-> gti_extractor_11.tmp x35 x
2.673362230000000E+08 2.673383560000000E+08 2.673419750000000E+08 2.673441080000000E+08 2.673477280000000E+08 2.673498610000000E+08 2.673534810000000E+08 2.673556140000000E+08 2.673592340000000E+08 2.673613670000000E+08 2.673649860000000E+08 2.673671190000000E+08 2.673707390000000E+08 2.673728720000000E+08 2.673764920000000E+08 2.673786250000000E+08 2.673822450000000E+08 2.673843780000000E+08 2.673879980000000E+08 2.673901300000000E+08 2.673937510000000E+08 2.673958830000000E+08 2.673995040000000E+08 2.674016360000000E+08 2.674052570000000E+08 2.674073890000000E+08 2.674110100000000E+08 2.674131410000000E+08 2.674167630000000E+08 2.674188940000000E+08 2.674225160000000E+08 2.674246470000000E+08 2.674282680000000E+08 2.674303990000000E+08 2.674340210000000E+08 2.674361520000000E+08 2.674397740000000E+08 2.674419050000000E+08 2.674455270000000E+08 2.674476570000000E+08 2.674512800000000E+08 2.674534100000000E+08 2.674570330000000E+08 2.674591620000000E+08 2.674627856653062E+08 2.674649150000000E+08 2.674685380000000E+08 2.674706680000000E+08 2.674742910000000E+08 2.674764200000000E+08 2.674800440000000E+08 2.674821730000000E+08 2.674857970000000E+08 2.674879260000000E+08 2.674915500000000E+08 2.674936780000000E+08 2.674973030000000E+08 2.674994310000000E+08 2.675030560000000E+08 2.675051830000000E+08 2.675088090000000E+08 2.675109360000000E+08 2.675145620000000E+08 2.675166880000000E+08 2.675203150000000E+08 2.675224410000000E+08 2.675260680000000E+08 2.675281930000000E+08 2.675318200000000E+08 2.675332460000000E+08-> stdout output from extractor
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
Doing file: ae803005010hxd_1_wel_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
10469672 1970477 0 8499195 0 0 0
Writing events file
1970477 events written to the output file
Doing file: ae803005010hxd_2_wel_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
9272381 2087862 0 7184519 0 0 0
Writing events file
4058339 events written to the output file
Doing file: ae803005010hxd_3_wel_uf.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
434810 95782 0 339028 0 0 0
Writing events file
4154121 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
20176863 4154121 0 16022742 0 0 0
in 73715. seconds
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
No wmap X-axis TCRPX, set to 0
No wmap Y-axis TCRPX, set to 0
No wmap X-axis TCRVL, set to 0
No wmap Y-axis TCRVL, set to 0
No wmap X-axis TCDLT, set to 1
No wmap Y-axis TCDLT, set to 1
Doing file: ae803005010hxd_0_pinno_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
44633 44633 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
44633 44633 0 0 0 0 0
in 93445. seconds
Spectrum has 44633 counts for 0.4776 counts/sec
... written the PHA data Extension
-> Grouping ae803005010hxd_0_pinno_sr.pi.infile,s,h,"ae803005010hxd_0_pinno_sr.pi",,,"Please enter PHA filename" outfile,s,h,"grppha.out.tmp",,,"Please enter output filename" chatter,i,h,5,,,"Please enter Chatter flag" comm,s,h,"group min 25&chkey RESPFILE /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/cpf/ae_hxd_pinxinome4_20080129.rsp&show all&exit",,,"GRPPHA" tempc,s,h,,,,"GRPPHA" clobber,b,h,no,,,"Overwrite output file if it already exists ?" mode,s,h,"hl",,,"Mode"-> stdout output from grppha
------------------------- MANDATORY KEYWORDS/VALUES ------------------------- -------------------------------------------------------------------- -------------------------------------------------------------------- EXTNAME - SPECTRUM Name of this BINTABLE TELESCOP - SUZAKU Mission/Satellite name INSTRUME - HXD Instrument/Detector FILTER - NONE Instrument filter in use EXPOSURE - 93445. Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 1.0000 Background scaling factor BACKFILE - none Associated background file CORRSCAL - 1.0000 Correlation scaling factor CORRFILE - none Associated correlation file RESPFILE - none Associated redistribution matrix file ANCRFILE - none Associated ancillary response file POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI_PIN Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 256 No. of legal detector channels NCHAN - 256 No. of detector channels in dataset PHAVERSN - 1.2.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - FALSE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - FALSE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 27 are grouped by a factor 28 ... 28 - 203 are single channels ... 204 - 205 are grouped by a factor 2 ... 206 - 237 are grouped by a factor 32 ... 238 - 255 are single channels ... --------------------------------------------- ... QUALITY ... ... ------- ... QUALITY ... ------- ... Bad Channels (Channel - Channel) ... --------------------------------------------- ... 238 - 255 have quality 2 ... --------------------------------------------- ... ... ----------------- ... SYSTEMATIC ERRORS ... ----------------- ... Systematic Errors have not been applied ... ... written the PHA data Extension ...... exiting, changes written to file : grppha.out.tmp ** grppha 3.0.1 completed successfully-> grppha successful on ae803005010hxd_0_pinno_sr.pi.
event_fname,f,a,"@hxddtcor.list",,,"HXD unscreened event FITS file name? (@flist of files or file name)" pi_fname,s,a,"ae803005010hxd_0_pinno_sr.pi",,,"HXD PHA fits file name ? (@flist of file list or file name)" save_pseudo,b,h,no,,,"save pseudo event FITS (yes/no)" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxddtcor
hxddtcor: hxddtcor version 1.50 hxddtcor: Inputs are 3 evt file(s) and 1 spec file(s). hxddtcor: event No.1 = ae803005010hxd_1_wel_uf.evt hxddtcor: event No.2 = ae803005010hxd_2_wel_uf.evt hxddtcor: event No.3 = ae803005010hxd_3_wel_uf.evt hxddtcor: spec = ae803005010hxd_0_pinno_sr.pi hxddtcor: save pseudo = no hxddtcor: format version 0 hxddtcor: extract pse_uf events. hxddtcor: extract pse_cl events with GRADE_HITMAT and QUALITY. hxddtcor: format version 0 hxddtcor: extract pse_uf events. hxddtcor: extract pse_cl events with GRADE_HITMAT and QUALITY. hxddtcor: format version 0 hxddtcor: extract pse_uf events. hxddtcor: extract pse_cl events with GRADE_HITMAT and QUALITY. hxddtcor: process ae803005010hxd_0_pinno_sr.pi ========================== hxddtcor: current exposure = 93444.69 hxddtcor: make pseudo list ae803005010hxd_1_wel_uf.evt (46426.00 sec) hxddtcor: make pseudo list ae803005010hxd_2_wel_uf.evt (38503.50 sec) hxddtcor: make pseudo list ae803005010hxd_3_wel_uf.evt (2004.25 sec) EXPOSURE 86933.750000 / Exposure time hxddtcor: ------ /aps/tools/headas/hea_v6_4_1_sz_v8_0/i686-pc-linux-gnu-libc2.3.4/bin/hxddtcor version 1.50------ hxddtcor: event file[0]= ae803005010hxd_1_wel_uf.evt hxddtcor: event file[1]= ae803005010hxd_2_wel_uf.evt hxddtcor: event file[2]= ae803005010hxd_3_wel_uf.evt hxddtcor: save pseudo = no hxddtcor: EXPOSURE changed from 93444.69 to 46426.00+38503.50+2004.25= 86933.75 hxddtcor: Live time is 93.0 %. Checksum keywords updated successfully. hxddtcor: process done.-> hxddtcor successful for ae803005010hxd_0_pinno_sr.pi.
XSPEC version: 12.4.0x
Build Date/Time: Sat May 24 04:33:09 2008
Executing script file "xspec_1_commands.tmp" ...
!XSPEC12>data ae803005010hxd_0_pinno_sr.pi;
Warning: RMF CHANTYPE keyword is not consistent with spectrum
1 spectrum in use
Spectral Data File: ae803005010hxd_0_pinno_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 5.134e-01 +/- 2.430e-03
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-197
Telescope: SUZAKU Instrument: HXD Channel Type: PI
Exposure Time: 8.693e+04 sec
Using Response (RMF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/cpf/ae_hxd_pinxinome4_20080129.rsp for Source 1
!XSPEC12>ignore bad;
ignore: 18 channels ignored from source number 1
!XSPEC12>ignore *:**-10.0 600.0-**;
1 channels (1) ignored in spectrum # 1
No channels ignored (no channels in specified range)
!XSPEC12>setplot splashpage off;
!XSPEC12>setplot energy;
!XSPEC12>setplot device ae803005010hxd_0_wel_pi.gif/gif;
!XSPEC12>setplot com log y on;
!XSPEC12>setplot com rescale y;
!XSPEC12>setplot com label top SUZAKU HXD observation of NGC 4382 (Sequence 803005010);
!XSPEC12>setplot com label file Exposure time: 86.9ks;
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae803005010hxd_0_wel_pi.gif.Input sky coordinates: 1.8635020000000E+02, 1.8191100000000E+01 Output pixel coordinates: 7.6521840911334E+02, 7.8922539761698E+02-> Contents of aecoordcalc.par
instrume,s,a,"XIS0",,,"any of XRS/HXD/XIS0-3 to specify instrument" coord,s,a,"SKY",,,"any of ECS/J2000/B1950/GAL/SKY/FOC/DET/OPTIC to specify input coordinates" output,s,a,"FULL",,,"any of FULL/XRS/HXD/XIS0-3 for message output" attitude,f,a,"KEY",,,"attitude file, or KEY/USER" pointing,s,a,"KEY",,,"pointing type, KEY/USER" infile,f,a,"ae803005010xi0_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,186.349157865585,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,71.814883272158,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,155.821291080941,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"186.3492",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"18.1851",,,"DEC. of the reference pixel in deg or +NNdNNmNN.NNs" ref_roll,r,a,0,,,"roll angle of Y-axis from the north (deg)" aberration,b,h,yes,,,"correct aberration ?" t,s,a,"267335876.000000",,,"The Astro-E time (s) or date string 'yyyy-mm-ddThh:mm:ss.sss'" leapfile,f,h,"CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits",,,"location of leap-seconds file" xrs_teldef,f,h,"CALDB",,,"location of XRS teldef file" hxd_teldef,f,h,"CALDB",,,"location of HXD teldef file" xis0_teldef,f,h,"CALDB",,,"location of XIS0 teldef file" xis1_teldef,f,h,"CALDB",,,"location of XIS1 teldef file" xis2_teldef,f,h,"CALDB",,,"location of XIS2 teldef file" xis3_teldef,f,h,"CALDB",,,"location of XIS3 teldef file" alpha,s,a,"162.8",,,"R.A. in deg or NNhNNmNN.NNs" delta,s,a,"57.42",,,"DEC. in deg or +NNdNNmNN.NNs" alphaJ2000,r,a,186.350199496105,,,"R.A. (J2000) in deg" deltaJ2000,r,a,18.19110121765,,,"DEC. (J2000) in deg" alphaB1950,r,a,185.719236772781,,,"R.A. (B1950) in deg" deltaB1950,r,a,18.4679267493212,,,"DEC. (B1950) in deg" aber_alpha,r,a,0.000658557448929287,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.00176824898915484,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,6.75241181669585,,,"angular difference in arcsec by aberration" l,r,a,267.711809901518,,,"Galactic longitude (deg)" b,r,a,79.2372261515639,,,"Galactic latitude (deg)" x,r,a,765.22,,,"X value of SKY coorindates (pixel)" y,r,a,789.23,,,"Y value of SKY coorindates (pixel)" focx,r,a,,,,"FOCX value of FOC coorindates (pixel)" focy,r,a,,,,"FOCY value of FOC coorindates (pixel)" detx,r,a,,,,"DETX value of DET coorindates (pixel)" dety,r,a,,,,"DETY value of DET coorindates (pixel)" pixel,i,a,,0,31,"PIXEL number of XRS (0-31)" corner,i,a,,0,4,"corner 0:center, 1:left-low, 2:right-low, 3:right-up, 4:left-up" actx,i,a,,,,"ACTX value of ACT coorindates (pixel)" acty,i,a,,,,"ACTY value of ACT coorindates (pixel)" segment,i,a,0,0,3,"SEGMENT number of XIS (0-3)" rawx,i,a,0,,,"RAWX value of RAW coorindates (pixel)" rawy,i,a,0,,,"RAWY value of RAW coorindates (pixel)" ppux,i,a,0,,,"PPUX value of PPU coorindates (pixel)" ppuy,i,a,0,,,"PPUY value of PPU coorindates (pixel)" theta,r,a,0.0,,,"offset angle from optical axis (arcmin)" phi,r,a,0.0,,,"azimuth angle from XRT-S optical axis (deg)" xrs_skyx,r,a,765.22045549233,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,789.22712123315,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,754.700544835822,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,773.317733937229,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,114.700544835822,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,133.317733937229,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.25391512001578,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-160.754631729244,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,765.220001138926,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,789.229992802074,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,754.698633036968,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,773.318401393887,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,956.195633036969,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,773.318401393887,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.26128505783991,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-1.47053736626411,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,765.220000000037,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,789.229999999988,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,754.698628244827,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,773.318403066943,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,495.198628244827,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,505.818403066943,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,529,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,505,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,17,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,505,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,19,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,505,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.56303854931341,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-174.695983583516,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,765.220000000037,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,789.229999999988,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,754.698628244827,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,773.318403066943,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,495.198628244827,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,510.818403066943,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,510,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,494,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,1,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,1,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,494,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,3,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,494,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.12936911979103,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.999094990139,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,765.220000000037,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,789.229999999988,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,754.698628244827,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,773.318403066943,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,498.198628244827,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,499.818403066943,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,524,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,526,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,12,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,526,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,14,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,526,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.365742688708669,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,27.3737853275428,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,765.220000000037,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,789.229999999988,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,754.698628244827,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,773.318403066943,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,487.198628244827,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,513.818403066943,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,537,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,513,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,25,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,513,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,27,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,513,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.641113751152441,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,59.7421817109501,,,"azimuth angle from XIS3 optical axis (deg)" mjdrefi,i,h,51544,,,"integer part of the MJD-TT reference (2000.0 UT)" mjdreff,r,h,0.00074287037037037,,,"fractional part of the MJD-TT reference (64.184 s)" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,no,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,1000,,,"Event number printout frequency" chatter,i,h,5,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aecoordcalc
aecoordcalc version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aecoordcalc version 1.6
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = NO
CHATTER = 5
aecoordcalc: *** show parameter ***
INSTRUME XIS0
COORD SKY
X 765.220 (pixel)
Y 789.230 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae803005010xi0_0_3x3n066a_cl.evt+1'
EA1 186.349157865585 (deg)
EA2 71.814883272158 (deg)
EA3 155.821291080941 (deg)
REF_ALPHA 186.3492 (deg) / 12h25m23.8s
REF_DELTA 18.1851 (deg) / +18d11m06s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267335876.000 / 2008-06-21T03:57:55 in UTC
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits)
MJDREFI 51544
MJDREFF 0.00074287037037037
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits' (CALDB)
HXD_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/bcf/ae_hxd_teldef_20060810.fits' (CALDB)
XIS0_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
XIS1_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
XIS2_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi2_teldef_20080303.fits' (CALDB)
XIS3_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
Event... 1 (0)
J2000 ( 186.3502 , 18.1911 ) [deg] / ( 12h25m24.0s , +18d11m28s )
B1950 ( 185.7192 , 18.4679 ) [deg] / ( 12h22m52.6s , +18d28m05s )
Galactic ( 267.7118 , 79.2372 ) [deg]
Aberration ( 2.3708 , 6.3657 ) [arcsec], Ang.Distance = 6.7524
XRS SKY ( 765.2205 , 789.2271 ) [pixel]
XRS FOC ( 754.7005 , 773.3177 ) [pixel]
XRS DET ( 114.7005 , 133.3177 ) [pixel]
XRS THETA/PHI 0.2539 [arcmin] / -160.7546 [deg]
XRS PIXEL = 8
HXD SKY ( 765.2200 , 789.2300 ) [pixel]
HXD FOC ( 754.6986 , 773.3184 ) [pixel]
HXD DET ( 956.1956 , 773.3184 ) [pixel]
HXD THETA/PHI 3.2613 [arcmin] / -1.4705 [deg]
XIS0 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS0 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS0 DET ( 495.1986 , 505.8184 ) [pixel]
XIS0 ACT ( 529 , 505 ) [pixel]
XIS0 RAW ( 17 , 505 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 19 , 505 ) [pixel]
XIS0 THETA/PHI 1.5630 [arcmin] / -174.6960 [deg]
XIS1 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS1 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS1 DET ( 495.1986 , 510.8184 ) [pixel]
XIS1 ACT ( 510 , 494 ) [pixel]
XIS1 RAW ( 1 , 494 ) [pixel] at SEGMENT = 1
XIS1 PPU ( 3 , 494 ) [pixel]
XIS1 THETA/PHI 1.1294 [arcmin] / -143.9991 [deg]
XIS2 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS2 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS2 DET ( 498.1986 , 499.8184 ) [pixel]
XIS2 ACT ( 524 , 526 ) [pixel]
XIS2 RAW ( 12 , 526 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 14 , 526 ) [pixel]
XIS2 THETA/PHI 0.3657 [arcmin] / 27.3738 [deg]
XIS3 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS3 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS3 DET ( 487.1986 , 513.8184 ) [pixel]
XIS3 ACT ( 537 , 513 ) [pixel]
XIS3 RAW ( 25 , 513 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 27 , 513 ) [pixel]
XIS3 THETA/PHI 0.6411 [arcmin] / 59.7422 [deg]
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
QUIT: 1 |
<--- [ 1] aecoordcalc version 1.6
| OK: 0/1
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae803005010xi0_0_3x3n066a_cl.evt_source.reg.tmp circle(765,789,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23633 5950 17683 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23633 5950 17683 0 0 0 0
in 86021. seconds
Spectrum has 5950 counts for 6.9169E-02 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23633 5557 18076 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23633 5557 18076 0 0 0 0
in 86021. seconds
Spectrum has 5557 counts for 6.4601E-02 counts/sec
... written the PHA data Extension
-> Creating RMF for ae803005010xi0_0_3x3n066a_sr.piinfile,s,h,"ae803005010xi0_0_3x3n066a_sr.pi",,,"Please enter PHA filename" outfile,s,h,"grppha.out.tmp",,,"Please enter output filename" chatter,i,h,5,,,"Please enter Chatter flag" comm,s,h,"group min 25&bad 0-81 3290-4095&chkey RESPFILE /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi0_20060213.rmf&chkey ANCRFILE /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi0_xisnom6_20060615.arf&chkey BACKFILE ae803005010xi0_0_3x3n066a_bg.pi&show all&exit",,,"GRPPHA" tempc,s,h,,,,"GRPPHA" clobber,b,h,no,,,"Overwrite output file if it already exists ?" mode,s,h,"hl",,,"Mode"-> stdout output from grppha
------------------------- MANDATORY KEYWORDS/VALUES ------------------------- -------------------------------------------------------------------- -------------------------------------------------------------------- EXTNAME - SPECTRUM Name of this BINTABLE TELESCOP - SUZAKU Mission/Satellite name INSTRUME - XIS0 Instrument/Detector FILTER - NONE Instrument filter in use EXPOSURE - 86021. Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 8.28743E-02 Background scaling factor BACKFILE - none Associated background file CORRSCAL - 1.0000 Correlation scaling factor CORRFILE - none Associated correlation file RESPFILE - none Associated redistribution matrix file ANCRFILE - none Associated ancillary response file POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 4096 No. of legal detector channels NCHAN - 4096 No. of detector channels in dataset PHAVERSN - 1.2.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - FALSE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - FALSE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 109 are grouped by a factor 110 ... 110 - 121 are grouped by a factor 12 ... 122 - 129 are grouped by a factor 8 ... 130 - 139 are grouped by a factor 10 ... 140 - 146 are grouped by a factor 7 ... 147 - 155 are grouped by a factor 9 ... 156 - 168 are grouped by a factor 13 ... 169 - 179 are grouped by a factor 11 ... 180 - 185 are grouped by a factor 6 ... 186 - 193 are grouped by a factor 4 ... 194 - 199 are grouped by a factor 3 ... 200 - 201 are grouped by a factor 2 ... 202 - 204 are grouped by a factor 3 ... 205 - 206 are grouped by a factor 2 ... 207 - 215 are grouped by a factor 3 ... 216 - 219 are grouped by a factor 2 ... 220 - 222 are grouped by a factor 3 ... 223 - 226 are grouped by a factor 2 ... 227 - 227 are single channels ... 228 - 235 are grouped by a factor 2 ... 236 - 241 are grouped by a factor 3 ... 242 - 247 are grouped by a factor 2 ... 248 - 256 are grouped by a factor 3 ... 257 - 258 are grouped by a factor 2 ... 259 - 264 are grouped by a factor 3 ... 265 - 272 are grouped by a factor 4 ... 273 - 274 are grouped by a factor 2 ... 275 - 286 are grouped by a factor 3 ... 287 - 288 are grouped by a factor 2 ... 289 - 297 are grouped by a factor 3 ... 298 - 305 are grouped by a factor 4 ... 306 - 308 are grouped by a factor 3 ... 309 - 332 are grouped by a factor 4 ... 333 - 335 are grouped by a factor 3 ... 336 - 339 are grouped by a factor 4 ... 340 - 344 are grouped by a factor 5 ... 345 - 350 are grouped by a factor 6 ... 351 - 358 are grouped by a factor 4 ... 359 - 361 are grouped by a factor 3 ... 362 - 369 are grouped by a factor 4 ... 370 - 372 are grouped by a factor 3 ... 373 - 388 are grouped by a factor 4 ... 389 - 391 are grouped by a factor 3 ... 392 - 397 are grouped by a factor 6 ... 398 - 405 are grouped by a factor 4 ... 406 - 415 are grouped by a factor 5 ... 416 - 419 are grouped by a factor 4 ... 420 - 424 are grouped by a factor 5 ... 425 - 436 are grouped by a factor 4 ... 437 - 454 are grouped by a factor 6 ... 455 - 461 are grouped by a factor 7 ... 462 - 471 are grouped by a factor 5 ... 472 - 483 are grouped by a factor 6 ... 484 - 491 are grouped by a factor 8 ... 492 - 497 are grouped by a factor 6 ... 498 - 502 are grouped by a factor 5 ... 503 - 509 are grouped by a factor 7 ... 510 - 514 are grouped by a factor 5 ... 515 - 521 are grouped by a factor 7 ... 522 - 530 are grouped by a factor 9 ... 531 - 550 are grouped by a factor 10 ... 551 - 557 are grouped by a factor 7 ... 558 - 573 are grouped by a factor 8 ... 574 - 591 are grouped by a factor 9 ... 592 - 599 are grouped by a factor 8 ... 600 - 609 are grouped by a factor 10 ... 610 - 617 are grouped by a factor 8 ... 618 - 629 are grouped by a factor 12 ... 630 - 646 are grouped by a factor 17 ... 647 - 658 are grouped by a factor 12 ... 659 - 674 are grouped by a factor 16 ... 675 - 688 are grouped by a factor 14 ... 689 - 705 are grouped by a factor 17 ... 706 - 735 are grouped by a factor 15 ... 736 - 767 are grouped by a factor 16 ... 768 - 782 are grouped by a factor 15 ... 783 - 803 are grouped by a factor 21 ... 804 - 821 are grouped by a factor 18 ... 822 - 837 are grouped by a factor 16 ... 838 - 851 are grouped by a factor 14 ... 852 - 862 are grouped by a factor 11 ... 863 - 879 are grouped by a factor 17 ... 880 - 901 are grouped by a factor 22 ... 902 - 918 are grouped by a factor 17 ... 919 - 938 are grouped by a factor 20 ... 939 - 961 are grouped by a factor 23 ... 962 - 982 are grouped by a factor 21 ... 983 - 1001 are grouped by a factor 19 ... 1002 - 1017 are grouped by a factor 16 ... 1018 - 1037 are grouped by a factor 20 ... 1038 - 1059 are grouped by a factor 22 ... 1060 - 1079 are grouped by a factor 20 ... 1080 - 1104 are grouped by a factor 25 ... 1105 - 1123 are grouped by a factor 19 ... 1124 - 1147 are grouped by a factor 24 ... 1148 - 1175 are grouped by a factor 28 ... 1176 - 1199 are grouped by a factor 24 ... 1200 - 1222 are grouped by a factor 23 ... 1223 - 1244 are grouped by a factor 22 ... 1245 - 1262 are grouped by a factor 18 ... 1263 - 1284 are grouped by a factor 22 ... 1285 - 1302 are grouped by a factor 18 ... 1303 - 1325 are grouped by a factor 23 ... 1326 - 1365 are grouped by a factor 20 ... 1366 - 1384 are grouped by a factor 19 ... 1385 - 1409 are grouped by a factor 25 ... 1410 - 1429 are grouped by a factor 20 ... 1430 - 1454 are grouped by a factor 25 ... 1455 - 1482 are grouped by a factor 28 ... 1483 - 1507 are grouped by a factor 25 ... 1508 - 1536 are grouped by a factor 29 ... 1537 - 1559 are grouped by a factor 23 ... 1560 - 1587 are grouped by a factor 28 ... 1588 - 1604 are grouped by a factor 17 ... 1605 - 1619 are grouped by a factor 15 ... 1620 - 1633 are grouped by a factor 14 ... 1634 - 1652 are grouped by a factor 19 ... 1653 - 1681 are grouped by a factor 29 ... 1682 - 1706 are grouped by a factor 25 ... 1707 - 1774 are grouped by a factor 34 ... 1775 - 1799 are grouped by a factor 25 ... 1800 - 1831 are grouped by a factor 32 ... 1832 - 1875 are grouped by a factor 44 ... 1876 - 1907 are grouped by a factor 32 ... 1908 - 1947 are grouped by a factor 40 ... 1948 - 2001 are grouped by a factor 54 ... 2002 - 2026 are grouped by a factor 25 ... 2027 - 2039 are grouped by a factor 13 ... 2040 - 2048 are grouped by a factor 9 ... 2049 - 2060 are grouped by a factor 12 ... 2061 - 2069 are grouped by a factor 9 ... 2070 - 2081 are grouped by a factor 12 ... 2082 - 2099 are grouped by a factor 18 ... 2100 - 2132 are grouped by a factor 33 ... 2133 - 2184 are grouped by a factor 52 ... 2185 - 2239 are grouped by a factor 55 ... 2240 - 2269 are grouped by a factor 30 ... 2270 - 2316 are grouped by a factor 47 ... 2317 - 2373 are grouped by a factor 57 ... 2374 - 2429 are grouped by a factor 56 ... 2430 - 2484 are grouped by a factor 55 ... 2485 - 2560 are grouped by a factor 76 ... 2561 - 2634 are grouped by a factor 74 ... 2635 - 2657 are grouped by a factor 23 ... 2658 - 2676 are grouped by a factor 19 ... 2677 - 2715 are grouped by a factor 39 ... 2716 - 2789 are grouped by a factor 74 ... 2790 - 2849 are grouped by a factor 60 ... 2850 - 2908 are grouped by a factor 59 ... 2909 - 2973 are grouped by a factor 65 ... 2974 - 3028 are grouped by a factor 55 ... 3029 - 3067 are grouped by a factor 39 ... 3068 - 3129 are grouped by a factor 62 ... 3130 - 3175 are grouped by a factor 46 ... 3176 - 3208 are grouped by a factor 33 ... 3209 - 3270 are grouped by a factor 62 ... 3271 - 3324 are grouped by a factor 54 ... 3325 - 3411 are grouped by a factor 87 ... 3412 - 3474 are grouped by a factor 63 ... 3475 - 3562 are grouped by a factor 88 ... 3563 - 3690 are grouped by a factor 128 ... 3691 - 3816 are grouped by a factor 126 ... 3817 - 3971 are grouped by a factor 155 ... 3972 - 4095 are grouped by a factor 124 ... --------------------------------------------- ... QUALITY ... ... ------- ... QUALITY ... ------- ... Bad Channels (Channel - Channel) ... --------------------------------------------- ... 0 - 81 have quality 5 ... 3290 - 4095 have quality 5 ... --------------------------------------------- ... ... ----------------- ... SYSTEMATIC ERRORS ... ----------------- ... Systematic Errors have not been applied ... ... written the PHA data Extension ...... exiting, changes written to file : grppha.out.tmp ** grppha 3.0.1 completed successfully-> grppha successful on ae803005010xi0_0_3x3n066a_sr.pi.
Input sky coordinates: 1.8635020000000E+02, 1.8191100000000E+01 Output pixel coordinates: 7.6521840911334E+02, 7.8922539761698E+02-> Contents of aecoordcalc.par
instrume,s,a,"XIS1",,,"any of XRS/HXD/XIS0-3 to specify instrument" coord,s,a,"SKY",,,"any of ECS/J2000/B1950/GAL/SKY/FOC/DET/OPTIC to specify input coordinates" output,s,a,"FULL",,,"any of FULL/XRS/HXD/XIS0-3 for message output" attitude,f,a,"KEY",,,"attitude file, or KEY/USER" pointing,s,a,"KEY",,,"pointing type, KEY/USER" infile,f,a,"ae803005010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,186.349157865585,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,71.814883272158,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,155.821291080941,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"186.3492",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"18.1851",,,"DEC. of the reference pixel in deg or +NNdNNmNN.NNs" ref_roll,r,a,0,,,"roll angle of Y-axis from the north (deg)" aberration,b,h,yes,,,"correct aberration ?" t,s,a,"267335876.000000",,,"The Astro-E time (s) or date string 'yyyy-mm-ddThh:mm:ss.sss'" leapfile,f,h,"CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits",,,"location of leap-seconds file" xrs_teldef,f,h,"CALDB",,,"location of XRS teldef file" hxd_teldef,f,h,"CALDB",,,"location of HXD teldef file" xis0_teldef,f,h,"CALDB",,,"location of XIS0 teldef file" xis1_teldef,f,h,"CALDB",,,"location of XIS1 teldef file" xis2_teldef,f,h,"CALDB",,,"location of XIS2 teldef file" xis3_teldef,f,h,"CALDB",,,"location of XIS3 teldef file" alpha,s,a,"162.8",,,"R.A. in deg or NNhNNmNN.NNs" delta,s,a,"57.42",,,"DEC. in deg or +NNdNNmNN.NNs" alphaJ2000,r,a,186.350199496105,,,"R.A. (J2000) in deg" deltaJ2000,r,a,18.19110121765,,,"DEC. (J2000) in deg" alphaB1950,r,a,185.719236772781,,,"R.A. (B1950) in deg" deltaB1950,r,a,18.4679267493212,,,"DEC. (B1950) in deg" aber_alpha,r,a,0.000658557448929287,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.00176824898915484,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,6.75241181669585,,,"angular difference in arcsec by aberration" l,r,a,267.711809901518,,,"Galactic longitude (deg)" b,r,a,79.2372261515639,,,"Galactic latitude (deg)" x,r,a,765.22,,,"X value of SKY coorindates (pixel)" y,r,a,789.23,,,"Y value of SKY coorindates (pixel)" focx,r,a,,,,"FOCX value of FOC coorindates (pixel)" focy,r,a,,,,"FOCY value of FOC coorindates (pixel)" detx,r,a,,,,"DETX value of DET coorindates (pixel)" dety,r,a,,,,"DETY value of DET coorindates (pixel)" pixel,i,a,,0,31,"PIXEL number of XRS (0-31)" corner,i,a,,0,4,"corner 0:center, 1:left-low, 2:right-low, 3:right-up, 4:left-up" actx,i,a,,,,"ACTX value of ACT coorindates (pixel)" acty,i,a,,,,"ACTY value of ACT coorindates (pixel)" segment,i,a,0,0,3,"SEGMENT number of XIS (0-3)" rawx,i,a,0,,,"RAWX value of RAW coorindates (pixel)" rawy,i,a,0,,,"RAWY value of RAW coorindates (pixel)" ppux,i,a,0,,,"PPUX value of PPU coorindates (pixel)" ppuy,i,a,0,,,"PPUY value of PPU coorindates (pixel)" theta,r,a,0.0,,,"offset angle from optical axis (arcmin)" phi,r,a,0.0,,,"azimuth angle from XRT-S optical axis (deg)" xrs_skyx,r,a,765.22045549233,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,789.22712123315,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,754.700544835822,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,773.317733937229,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,114.700544835822,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,133.317733937229,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.25391512001578,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-160.754631729244,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,765.220001138926,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,789.229992802074,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,754.698633036968,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,773.318401393887,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,956.195633036969,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,773.318401393887,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.26128505783991,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-1.47053736626411,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,765.220000000037,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,789.229999999988,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,754.698628244827,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,773.318403066943,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,495.198628244827,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,505.818403066943,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,529,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,505,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,17,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,505,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,19,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,505,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.56303854931341,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-174.695983583516,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,765.220000000037,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,789.229999999988,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,754.698628244827,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,773.318403066943,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,495.198628244827,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,510.818403066943,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,510,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,494,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,1,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,1,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,494,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,3,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,494,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.12936911979103,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.999094990139,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,765.220000000037,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,789.229999999988,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,754.698628244827,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,773.318403066943,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,498.198628244827,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,499.818403066943,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,524,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,526,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,12,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,526,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,14,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,526,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.365742688708669,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,27.3737853275428,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,765.220000000037,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,789.229999999988,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,754.698628244827,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,773.318403066943,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,487.198628244827,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,513.818403066943,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,537,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,513,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,25,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,513,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,27,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,513,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.641113751152441,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,59.7421817109501,,,"azimuth angle from XIS3 optical axis (deg)" mjdrefi,i,h,51544,,,"integer part of the MJD-TT reference (2000.0 UT)" mjdreff,r,h,0.00074287037037037,,,"fractional part of the MJD-TT reference (64.184 s)" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,no,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,1000,,,"Event number printout frequency" chatter,i,h,5,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aecoordcalc
aecoordcalc version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aecoordcalc version 1.6
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = NO
CHATTER = 5
aecoordcalc: *** show parameter ***
INSTRUME XIS1
COORD SKY
X 765.220 (pixel)
Y 789.230 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae803005010xi1_0_3x3n069b_cl.evt+1'
EA1 186.349157865585 (deg)
EA2 71.814883272158 (deg)
EA3 155.821291080941 (deg)
REF_ALPHA 186.3492 (deg) / 12h25m23.8s
REF_DELTA 18.1851 (deg) / +18d11m06s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267335876.000 / 2008-06-21T03:57:55 in UTC
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits)
MJDREFI 51544
MJDREFF 0.00074287037037037
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits' (CALDB)
HXD_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/bcf/ae_hxd_teldef_20060810.fits' (CALDB)
XIS0_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
XIS1_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
XIS2_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi2_teldef_20080303.fits' (CALDB)
XIS3_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
Event... 1 (0)
J2000 ( 186.3502 , 18.1911 ) [deg] / ( 12h25m24.0s , +18d11m28s )
B1950 ( 185.7192 , 18.4679 ) [deg] / ( 12h22m52.6s , +18d28m05s )
Galactic ( 267.7118 , 79.2372 ) [deg]
Aberration ( 2.3708 , 6.3657 ) [arcsec], Ang.Distance = 6.7524
XRS SKY ( 765.2205 , 789.2271 ) [pixel]
XRS FOC ( 754.7005 , 773.3177 ) [pixel]
XRS DET ( 114.7005 , 133.3177 ) [pixel]
XRS THETA/PHI 0.2539 [arcmin] / -160.7546 [deg]
XRS PIXEL = 8
HXD SKY ( 765.2200 , 789.2300 ) [pixel]
HXD FOC ( 754.6986 , 773.3184 ) [pixel]
HXD DET ( 956.1956 , 773.3184 ) [pixel]
HXD THETA/PHI 3.2613 [arcmin] / -1.4705 [deg]
XIS0 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS0 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS0 DET ( 495.1986 , 505.8184 ) [pixel]
XIS0 ACT ( 529 , 505 ) [pixel]
XIS0 RAW ( 17 , 505 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 19 , 505 ) [pixel]
XIS0 THETA/PHI 1.5630 [arcmin] / -174.6960 [deg]
XIS1 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS1 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS1 DET ( 495.1986 , 510.8184 ) [pixel]
XIS1 ACT ( 510 , 494 ) [pixel]
XIS1 RAW ( 1 , 494 ) [pixel] at SEGMENT = 1
XIS1 PPU ( 3 , 494 ) [pixel]
XIS1 THETA/PHI 1.1294 [arcmin] / -143.9991 [deg]
XIS2 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS2 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS2 DET ( 498.1986 , 499.8184 ) [pixel]
XIS2 ACT ( 524 , 526 ) [pixel]
XIS2 RAW ( 12 , 526 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 14 , 526 ) [pixel]
XIS2 THETA/PHI 0.3657 [arcmin] / 27.3738 [deg]
XIS3 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS3 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS3 DET ( 487.1986 , 513.8184 ) [pixel]
XIS3 ACT ( 537 , 513 ) [pixel]
XIS3 RAW ( 25 , 513 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 27 , 513 ) [pixel]
XIS3 THETA/PHI 0.6411 [arcmin] / 59.7422 [deg]
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
QUIT: 1 |
<--- [ 1] aecoordcalc version 1.6
| OK: 0/1
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae803005010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(765,789,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_0_3x3n069b_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
105700 23595 82105 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
105700 23595 82105 0 0 0 0
in 86021. seconds
Spectrum has 23595 counts for 0.2743 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_0_3x3n069b_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
105700 30759 74941 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
105700 30759 74941 0 0 0 0
in 86021. seconds
Spectrum has 30759 counts for 0.3576 counts/sec
... written the PHA data Extension
-> Creating RMF for ae803005010xi1_0_3x3n069b_sr.piinfile,s,h,"ae803005010xi1_0_3x3n069b_sr.pi",,,"Please enter PHA filename" outfile,s,h,"grppha.out.tmp",,,"Please enter output filename" chatter,i,h,5,,,"Please enter Chatter flag" comm,s,h,"group min 25&bad 0-81 3290-4095&chkey RESPFILE /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi1_20060213.rmf&chkey ANCRFILE /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi1_xisnom6_20060615.arf&chkey BACKFILE ae803005010xi1_0_3x3n069b_bg.pi&show all&exit",,,"GRPPHA" tempc,s,h,,,,"GRPPHA" clobber,b,h,no,,,"Overwrite output file if it already exists ?" mode,s,h,"hl",,,"Mode"-> stdout output from grppha
------------------------- MANDATORY KEYWORDS/VALUES ------------------------- -------------------------------------------------------------------- -------------------------------------------------------------------- EXTNAME - SPECTRUM Name of this BINTABLE TELESCOP - SUZAKU Mission/Satellite name INSTRUME - XIS1 Instrument/Detector FILTER - NONE Instrument filter in use EXPOSURE - 86021. Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 8.28743E-02 Background scaling factor BACKFILE - none Associated background file CORRSCAL - 1.0000 Correlation scaling factor CORRFILE - none Associated correlation file RESPFILE - none Associated redistribution matrix file ANCRFILE - none Associated ancillary response file POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 4096 No. of legal detector channels NCHAN - 4096 No. of detector channels in dataset PHAVERSN - 1.2.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - FALSE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - FALSE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 25 are grouped by a factor 26 ... 26 - 52 are single channels ... 53 - 54 are grouped by a factor 2 ... 55 - 55 are single channels ... 56 - 59 are grouped by a factor 2 ... 60 - 61 are single channels ... 62 - 69 are grouped by a factor 2 ... 70 - 70 are single channels ... 71 - 78 are grouped by a factor 2 ... 79 - 81 are grouped by a factor 3 ... 82 - 85 are grouped by a factor 4 ... 86 - 91 are grouped by a factor 6 ... 92 - 101 are grouped by a factor 5 ... 102 - 125 are grouped by a factor 4 ... 126 - 140 are grouped by a factor 3 ... 141 - 142 are grouped by a factor 2 ... 143 - 148 are grouped by a factor 3 ... 149 - 152 are grouped by a factor 2 ... 153 - 155 are grouped by a factor 3 ... 156 - 163 are grouped by a factor 2 ... 164 - 169 are grouped by a factor 3 ... 170 - 171 are grouped by a factor 2 ... 172 - 172 are single channels ... 173 - 176 are grouped by a factor 2 ... 177 - 179 are single channels ... 180 - 183 are grouped by a factor 2 ... 184 - 187 are single channels ... 188 - 189 are grouped by a factor 2 ... 190 - 232 are single channels ... 233 - 234 are grouped by a factor 2 ... 235 - 235 are single channels ... 236 - 237 are grouped by a factor 2 ... 238 - 239 are single channels ... 240 - 241 are grouped by a factor 2 ... 242 - 242 are single channels ... 243 - 246 are grouped by a factor 2 ... 247 - 248 are single channels ... 249 - 254 are grouped by a factor 2 ... 255 - 255 are single channels ... 256 - 257 are grouped by a factor 2 ... 258 - 258 are single channels ... 259 - 292 are grouped by a factor 2 ... 293 - 295 are grouped by a factor 3 ... 296 - 297 are grouped by a factor 2 ... 298 - 303 are grouped by a factor 3 ... 304 - 305 are grouped by a factor 2 ... 306 - 309 are grouped by a factor 4 ... 310 - 315 are grouped by a factor 3 ... 316 - 319 are grouped by a factor 2 ... 320 - 331 are grouped by a factor 3 ... 332 - 335 are grouped by a factor 4 ... 336 - 344 are grouped by a factor 3 ... 345 - 348 are grouped by a factor 4 ... 349 - 351 are grouped by a factor 3 ... 352 - 353 are grouped by a factor 2 ... 354 - 358 are grouped by a factor 5 ... 359 - 361 are grouped by a factor 3 ... 362 - 363 are grouped by a factor 2 ... 364 - 372 are grouped by a factor 3 ... 373 - 376 are grouped by a factor 4 ... 377 - 388 are grouped by a factor 3 ... 389 - 392 are grouped by a factor 4 ... 393 - 401 are grouped by a factor 3 ... 402 - 405 are grouped by a factor 4 ... 406 - 407 are grouped by a factor 2 ... 408 - 411 are grouped by a factor 4 ... 412 - 417 are grouped by a factor 3 ... 418 - 421 are grouped by a factor 4 ... 422 - 424 are grouped by a factor 3 ... 425 - 439 are grouped by a factor 5 ... 440 - 443 are grouped by a factor 4 ... 444 - 461 are grouped by a factor 6 ... 462 - 465 are grouped by a factor 4 ... 466 - 470 are grouped by a factor 5 ... 471 - 473 are grouped by a factor 3 ... 474 - 479 are grouped by a factor 6 ... 480 - 483 are grouped by a factor 4 ... 484 - 486 are grouped by a factor 3 ... 487 - 491 are grouped by a factor 5 ... 492 - 499 are grouped by a factor 4 ... 500 - 504 are grouped by a factor 5 ... 505 - 510 are grouped by a factor 6 ... 511 - 514 are grouped by a factor 4 ... 515 - 526 are grouped by a factor 6 ... 527 - 533 are grouped by a factor 7 ... 534 - 551 are grouped by a factor 6 ... 552 - 565 are grouped by a factor 7 ... 566 - 585 are grouped by a factor 5 ... 586 - 594 are grouped by a factor 9 ... 595 - 599 are grouped by a factor 5 ... 600 - 607 are grouped by a factor 8 ... 608 - 614 are grouped by a factor 7 ... 615 - 622 are grouped by a factor 8 ... 623 - 631 are grouped by a factor 9 ... 632 - 639 are grouped by a factor 8 ... 640 - 653 are grouped by a factor 14 ... 654 - 661 are grouped by a factor 8 ... 662 - 683 are grouped by a factor 11 ... 684 - 711 are grouped by a factor 14 ... 712 - 719 are grouped by a factor 8 ... 720 - 728 are grouped by a factor 9 ... 729 - 738 are grouped by a factor 10 ... 739 - 750 are grouped by a factor 12 ... 751 - 760 are grouped by a factor 10 ... 761 - 793 are grouped by a factor 11 ... 794 - 805 are grouped by a factor 12 ... 806 - 818 are grouped by a factor 13 ... 819 - 835 are grouped by a factor 17 ... 836 - 851 are grouped by a factor 16 ... 852 - 862 are grouped by a factor 11 ... 863 - 876 are grouped by a factor 14 ... 877 - 892 are grouped by a factor 16 ... 893 - 905 are grouped by a factor 13 ... 906 - 921 are grouped by a factor 16 ... 922 - 936 are grouped by a factor 15 ... 937 - 950 are grouped by a factor 14 ... 951 - 966 are grouped by a factor 16 ... 967 - 981 are grouped by a factor 15 ... 982 - 1023 are grouped by a factor 14 ... 1024 - 1039 are grouped by a factor 16 ... 1040 - 1052 are grouped by a factor 13 ... 1053 - 1064 are grouped by a factor 12 ... 1065 - 1082 are grouped by a factor 18 ... 1083 - 1093 are grouped by a factor 11 ... 1094 - 1131 are grouped by a factor 19 ... 1132 - 1144 are grouped by a factor 13 ... 1145 - 1159 are grouped by a factor 15 ... 1160 - 1176 are grouped by a factor 17 ... 1177 - 1200 are grouped by a factor 24 ... 1201 - 1215 are grouped by a factor 15 ... 1216 - 1234 are grouped by a factor 19 ... 1235 - 1249 are grouped by a factor 15 ... 1250 - 1267 are grouped by a factor 18 ... 1268 - 1286 are grouped by a factor 19 ... 1287 - 1307 are grouped by a factor 21 ... 1308 - 1330 are grouped by a factor 23 ... 1331 - 1352 are grouped by a factor 22 ... 1353 - 1370 are grouped by a factor 18 ... 1371 - 1394 are grouped by a factor 24 ... 1395 - 1412 are grouped by a factor 18 ... 1413 - 1432 are grouped by a factor 20 ... 1433 - 1456 are grouped by a factor 24 ... 1457 - 1478 are grouped by a factor 22 ... 1479 - 1495 are grouped by a factor 17 ... 1496 - 1519 are grouped by a factor 24 ... 1520 - 1540 are grouped by a factor 21 ... 1541 - 1562 are grouped by a factor 22 ... 1563 - 1581 are grouped by a factor 19 ... 1582 - 1602 are grouped by a factor 21 ... 1603 - 1632 are grouped by a factor 30 ... 1633 - 1661 are grouped by a factor 29 ... 1662 - 1684 are grouped by a factor 23 ... 1685 - 1709 are grouped by a factor 25 ... 1710 - 1731 are grouped by a factor 22 ... 1732 - 1755 are grouped by a factor 24 ... 1756 - 1789 are grouped by a factor 34 ... 1790 - 1809 are grouped by a factor 20 ... 1810 - 1855 are grouped by a factor 23 ... 1856 - 1873 are grouped by a factor 18 ... 1874 - 1905 are grouped by a factor 32 ... 1906 - 1928 are grouped by a factor 23 ... 1929 - 1952 are grouped by a factor 24 ... 1953 - 2006 are grouped by a factor 27 ... 2007 - 2025 are grouped by a factor 19 ... 2026 - 2036 are grouped by a factor 11 ... 2037 - 2048 are grouped by a factor 12 ... 2049 - 2058 are grouped by a factor 10 ... 2059 - 2067 are grouped by a factor 9 ... 2068 - 2079 are grouped by a factor 12 ... 2080 - 2088 are grouped by a factor 9 ... 2089 - 2102 are grouped by a factor 14 ... 2103 - 2118 are grouped by a factor 16 ... 2119 - 2129 are grouped by a factor 11 ... 2130 - 2147 are grouped by a factor 18 ... 2148 - 2163 are grouped by a factor 16 ... 2164 - 2177 are grouped by a factor 14 ... 2178 - 2190 are grouped by a factor 13 ... 2191 - 2202 are grouped by a factor 12 ... 2203 - 2211 are grouped by a factor 9 ... 2212 - 2223 are grouped by a factor 12 ... 2224 - 2238 are grouped by a factor 15 ... 2239 - 2250 are grouped by a factor 12 ... 2251 - 2261 are grouped by a factor 11 ... 2262 - 2268 are grouped by a factor 7 ... 2269 - 2294 are grouped by a factor 13 ... 2295 - 2304 are grouped by a factor 10 ... 2305 - 2317 are grouped by a factor 13 ... 2318 - 2335 are grouped by a factor 9 ... 2336 - 2346 are grouped by a factor 11 ... 2347 - 2356 are grouped by a factor 10 ... 2357 - 2368 are grouped by a factor 12 ... 2369 - 2379 are grouped by a factor 11 ... 2380 - 2399 are grouped by a factor 10 ... 2400 - 2406 are grouped by a factor 7 ... 2407 - 2418 are grouped by a factor 12 ... 2419 - 2436 are grouped by a factor 9 ... 2437 - 2446 are grouped by a factor 10 ... 2447 - 2462 are grouped by a factor 8 ... 2463 - 2472 are grouped by a factor 10 ... 2473 - 2478 are grouped by a factor 6 ... 2479 - 2487 are grouped by a factor 9 ... 2488 - 2495 are grouped by a factor 8 ... 2496 - 2509 are grouped by a factor 7 ... 2510 - 2519 are grouped by a factor 10 ... 2520 - 2531 are grouped by a factor 6 ... 2532 - 2540 are grouped by a factor 9 ... 2541 - 2548 are grouped by a factor 8 ... 2549 - 2555 are grouped by a factor 7 ... 2556 - 2563 are grouped by a factor 8 ... 2564 - 2570 are grouped by a factor 7 ... 2571 - 2576 are grouped by a factor 6 ... 2577 - 2583 are grouped by a factor 7 ... 2584 - 2592 are grouped by a factor 9 ... 2593 - 2599 are grouped by a factor 7 ... 2600 - 2604 are grouped by a factor 5 ... 2605 - 2618 are grouped by a factor 7 ... 2619 - 2626 are grouped by a factor 8 ... 2627 - 2636 are grouped by a factor 5 ... 2637 - 2642 are grouped by a factor 6 ... 2643 - 2649 are grouped by a factor 7 ... 2650 - 2657 are grouped by a factor 8 ... 2658 - 2664 are grouped by a factor 7 ... 2665 - 2669 are grouped by a factor 5 ... 2670 - 2675 are grouped by a factor 6 ... 2676 - 2679 are grouped by a factor 4 ... 2680 - 2684 are grouped by a factor 5 ... 2685 - 2688 are grouped by a factor 4 ... 2689 - 2695 are grouped by a factor 7 ... 2696 - 2713 are grouped by a factor 6 ... 2714 - 2723 are grouped by a factor 5 ... 2724 - 2730 are grouped by a factor 7 ... 2731 - 2734 are grouped by a factor 4 ... 2735 - 2746 are grouped by a factor 6 ... 2747 - 2751 are grouped by a factor 5 ... 2752 - 2760 are grouped by a factor 9 ... 2761 - 2766 are grouped by a factor 6 ... 2767 - 2771 are grouped by a factor 5 ... 2772 - 2778 are grouped by a factor 7 ... 2779 - 2790 are grouped by a factor 6 ... 2791 - 2794 are grouped by a factor 4 ... 2795 - 2799 are grouped by a factor 5 ... 2800 - 2811 are grouped by a factor 6 ... 2812 - 2821 are grouped by a factor 5 ... 2822 - 2829 are grouped by a factor 8 ... 2830 - 2835 are grouped by a factor 6 ... 2836 - 2842 are grouped by a factor 7 ... 2843 - 2848 are grouped by a factor 6 ... 2849 - 2858 are grouped by a factor 5 ... 2859 - 2864 are grouped by a factor 6 ... 2865 - 2869 are grouped by a factor 5 ... 2870 - 2876 are grouped by a factor 7 ... 2877 - 2881 are grouped by a factor 5 ... 2882 - 2887 are grouped by a factor 6 ... 2888 - 2891 are grouped by a factor 4 ... 2892 - 2905 are grouped by a factor 7 ... 2906 - 2913 are grouped by a factor 4 ... 2914 - 2918 are grouped by a factor 5 ... 2919 - 2924 are grouped by a factor 6 ... 2925 - 2934 are grouped by a factor 5 ... 2935 - 2938 are grouped by a factor 4 ... 2939 - 2943 are grouped by a factor 5 ... 2944 - 2949 are grouped by a factor 6 ... 2950 - 2956 are grouped by a factor 7 ... 2957 - 2966 are grouped by a factor 5 ... 2967 - 2970 are grouped by a factor 4 ... 2971 - 2980 are grouped by a factor 5 ... 2981 - 2987 are grouped by a factor 7 ... 2988 - 2999 are grouped by a factor 6 ... 3000 - 3024 are grouped by a factor 5 ... 3025 - 3030 are grouped by a factor 6 ... 3031 - 3035 are grouped by a factor 5 ... 3036 - 3039 are grouped by a factor 4 ... 3040 - 3045 are grouped by a factor 6 ... 3046 - 3049 are grouped by a factor 4 ... 3050 - 3064 are grouped by a factor 5 ... 3065 - 3070 are grouped by a factor 6 ... 3071 - 3075 are grouped by a factor 5 ... 3076 - 3083 are grouped by a factor 4 ... 3084 - 3088 are grouped by a factor 5 ... 3089 - 3092 are grouped by a factor 4 ... 3093 - 3097 are grouped by a factor 5 ... 3098 - 3101 are grouped by a factor 4 ... 3102 - 3106 are grouped by a factor 5 ... 3107 - 3110 are grouped by a factor 4 ... 3111 - 3115 are grouped by a factor 5 ... 3116 - 3119 are grouped by a factor 4 ... 3120 - 3124 are grouped by a factor 5 ... 3125 - 3128 are grouped by a factor 4 ... 3129 - 3133 are grouped by a factor 5 ... 3134 - 3137 are grouped by a factor 4 ... 3138 - 3142 are grouped by a factor 5 ... 3143 - 3145 are grouped by a factor 3 ... 3146 - 3150 are grouped by a factor 5 ... 3151 - 3156 are grouped by a factor 6 ... 3157 - 3164 are grouped by a factor 4 ... 3165 - 3179 are grouped by a factor 5 ... 3180 - 3185 are grouped by a factor 6 ... 3186 - 3195 are grouped by a factor 5 ... 3196 - 3207 are grouped by a factor 4 ... 3208 - 3210 are grouped by a factor 3 ... 3211 - 3214 are grouped by a factor 4 ... 3215 - 3220 are grouped by a factor 6 ... 3221 - 3224 are grouped by a factor 4 ... 3225 - 3239 are grouped by a factor 5 ... 3240 - 3246 are grouped by a factor 7 ... 3247 - 3256 are grouped by a factor 5 ... 3257 - 3260 are grouped by a factor 4 ... 3261 - 3295 are grouped by a factor 5 ... 3296 - 3311 are grouped by a factor 4 ... 3312 - 3316 are grouped by a factor 5 ... 3317 - 3322 are grouped by a factor 6 ... 3323 - 3327 are grouped by a factor 5 ... 3328 - 3333 are grouped by a factor 6 ... 3334 - 3338 are grouped by a factor 5 ... 3339 - 3341 are grouped by a factor 3 ... 3342 - 3345 are grouped by a factor 4 ... 3346 - 3355 are grouped by a factor 5 ... 3356 - 3367 are grouped by a factor 4 ... 3368 - 3373 are grouped by a factor 6 ... 3374 - 3388 are grouped by a factor 5 ... 3389 - 3394 are grouped by a factor 6 ... 3395 - 3398 are grouped by a factor 4 ... 3399 - 3404 are grouped by a factor 6 ... 3405 - 3408 are grouped by a factor 4 ... 3409 - 3420 are grouped by a factor 6 ... 3421 - 3427 are grouped by a factor 7 ... 3428 - 3430 are grouped by a factor 3 ... 3431 - 3436 are grouped by a factor 6 ... 3437 - 3440 are grouped by a factor 4 ... 3441 - 3445 are grouped by a factor 5 ... 3446 - 3449 are grouped by a factor 4 ... 3450 - 3452 are grouped by a factor 3 ... 3453 - 3456 are grouped by a factor 4 ... 3457 - 3459 are grouped by a factor 3 ... 3460 - 3469 are grouped by a factor 5 ... 3470 - 3473 are grouped by a factor 4 ... 3474 - 3478 are grouped by a factor 5 ... 3479 - 3484 are grouped by a factor 6 ... 3485 - 3489 are grouped by a factor 5 ... 3490 - 3493 are grouped by a factor 4 ... 3494 - 3503 are grouped by a factor 5 ... 3504 - 3506 are grouped by a factor 3 ... 3507 - 3516 are grouped by a factor 5 ... 3517 - 3524 are grouped by a factor 4 ... 3525 - 3534 are grouped by a factor 5 ... 3535 - 3541 are grouped by a factor 7 ... 3542 - 3549 are grouped by a factor 4 ... 3550 - 3557 are grouped by a factor 8 ... 3558 - 3562 are grouped by a factor 5 ... 3563 - 3574 are grouped by a factor 6 ... 3575 - 3577 are grouped by a factor 3 ... 3578 - 3587 are grouped by a factor 5 ... 3588 - 3591 are grouped by a factor 4 ... 3592 - 3598 are grouped by a factor 7 ... 3599 - 3604 are grouped by a factor 6 ... 3605 - 3608 are grouped by a factor 4 ... 3609 - 3618 are grouped by a factor 5 ... 3619 - 3622 are grouped by a factor 4 ... 3623 - 3628 are grouped by a factor 6 ... 3629 - 3644 are grouped by a factor 8 ... 3645 - 3659 are grouped by a factor 5 ... 3660 - 3666 are grouped by a factor 7 ... 3667 - 3686 are grouped by a factor 5 ... 3687 - 3698 are grouped by a factor 6 ... 3699 - 3702 are grouped by a factor 4 ... 3703 - 3714 are grouped by a factor 6 ... 3715 - 3718 are grouped by a factor 4 ... 3719 - 3723 are grouped by a factor 5 ... 3724 - 3747 are grouped by a factor 6 ... 3748 - 3755 are grouped by a factor 4 ... 3756 - 3761 are grouped by a factor 6 ... 3762 - 3766 are grouped by a factor 5 ... 3767 - 3784 are grouped by a factor 6 ... 3785 - 3789 are grouped by a factor 5 ... 3790 - 3795 are grouped by a factor 6 ... 3796 - 3799 are grouped by a factor 4 ... 3800 - 3804 are grouped by a factor 5 ... 3805 - 3818 are grouped by a factor 7 ... 3819 - 3822 are grouped by a factor 4 ... 3823 - 3829 are grouped by a factor 7 ... 3830 - 3835 are grouped by a factor 6 ... 3836 - 3838 are grouped by a factor 3 ... 3839 - 3842 are grouped by a factor 4 ... 3843 - 3847 are grouped by a factor 5 ... 3848 - 3868 are grouped by a factor 7 ... 3869 - 3893 are grouped by a factor 5 ... 3894 - 3899 are grouped by a factor 6 ... 3900 - 3904 are grouped by a factor 5 ... 3905 - 3911 are grouped by a factor 7 ... 3912 - 3917 are grouped by a factor 6 ... 3918 - 3922 are grouped by a factor 5 ... 3923 - 3934 are grouped by a factor 6 ... 3935 - 3962 are grouped by a factor 7 ... 3963 - 3978 are grouped by a factor 8 ... 3979 - 3985 are grouped by a factor 7 ... 3986 - 3990 are grouped by a factor 5 ... 3991 - 4004 are grouped by a factor 7 ... 4005 - 4009 are grouped by a factor 5 ... 4010 - 4017 are grouped by a factor 8 ... 4018 - 4026 are grouped by a factor 9 ... 4027 - 4032 are grouped by a factor 6 ... 4033 - 4041 are grouped by a factor 9 ... 4042 - 4048 are grouped by a factor 7 ... 4049 - 4054 are grouped by a factor 6 ... 4055 - 4061 are grouped by a factor 7 ... 4062 - 4071 are grouped by a factor 10 ... 4072 - 4083 are grouped by a factor 6 ... 4084 - 4092 are grouped by a factor 9 ... 4093 - 4095 are grouped by a factor 3 ... --------------------------------------------- ... QUALITY ... ... ------- ... QUALITY ... ------- ... Bad Channels (Channel - Channel) ... --------------------------------------------- ... 0 - 81 have quality 5 ... 3290 - 4095 have quality 5 ... --------------------------------------------- ... ... ----------------- ... SYSTEMATIC ERRORS ... ----------------- ... Systematic Errors have not been applied ... ... written the PHA data Extension ...... exiting, changes written to file : grppha.out.tmp ** grppha 3.0.1 completed successfully-> grppha successful on ae803005010xi1_0_3x3n069b_sr.pi.
Input sky coordinates: 1.8635020000000E+02, 1.8191100000000E+01 Output pixel coordinates: 7.6521840911334E+02, 7.8922539761698E+02-> Contents of aecoordcalc.par
instrume,s,a,"XIS3",,,"any of XRS/HXD/XIS0-3 to specify instrument" coord,s,a,"SKY",,,"any of ECS/J2000/B1950/GAL/SKY/FOC/DET/OPTIC to specify input coordinates" output,s,a,"FULL",,,"any of FULL/XRS/HXD/XIS0-3 for message output" attitude,f,a,"KEY",,,"attitude file, or KEY/USER" pointing,s,a,"KEY",,,"pointing type, KEY/USER" infile,f,a,"ae803005010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,186.349157865585,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,71.814883272158,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,155.821291080941,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"186.3492",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"18.1851",,,"DEC. of the reference pixel in deg or +NNdNNmNN.NNs" ref_roll,r,a,0,,,"roll angle of Y-axis from the north (deg)" aberration,b,h,yes,,,"correct aberration ?" t,s,a,"267335876.000000",,,"The Astro-E time (s) or date string 'yyyy-mm-ddThh:mm:ss.sss'" leapfile,f,h,"CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits",,,"location of leap-seconds file" xrs_teldef,f,h,"CALDB",,,"location of XRS teldef file" hxd_teldef,f,h,"CALDB",,,"location of HXD teldef file" xis0_teldef,f,h,"CALDB",,,"location of XIS0 teldef file" xis1_teldef,f,h,"CALDB",,,"location of XIS1 teldef file" xis2_teldef,f,h,"CALDB",,,"location of XIS2 teldef file" xis3_teldef,f,h,"CALDB",,,"location of XIS3 teldef file" alpha,s,a,"162.8",,,"R.A. in deg or NNhNNmNN.NNs" delta,s,a,"57.42",,,"DEC. in deg or +NNdNNmNN.NNs" alphaJ2000,r,a,186.350199496105,,,"R.A. (J2000) in deg" deltaJ2000,r,a,18.19110121765,,,"DEC. (J2000) in deg" alphaB1950,r,a,185.719236772781,,,"R.A. (B1950) in deg" deltaB1950,r,a,18.4679267493212,,,"DEC. (B1950) in deg" aber_alpha,r,a,0.000658557448929287,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.00176824898915484,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,6.75241181669585,,,"angular difference in arcsec by aberration" l,r,a,267.711809901518,,,"Galactic longitude (deg)" b,r,a,79.2372261515639,,,"Galactic latitude (deg)" x,r,a,765.22,,,"X value of SKY coorindates (pixel)" y,r,a,789.23,,,"Y value of SKY coorindates (pixel)" focx,r,a,,,,"FOCX value of FOC coorindates (pixel)" focy,r,a,,,,"FOCY value of FOC coorindates (pixel)" detx,r,a,,,,"DETX value of DET coorindates (pixel)" dety,r,a,,,,"DETY value of DET coorindates (pixel)" pixel,i,a,,0,31,"PIXEL number of XRS (0-31)" corner,i,a,,0,4,"corner 0:center, 1:left-low, 2:right-low, 3:right-up, 4:left-up" actx,i,a,,,,"ACTX value of ACT coorindates (pixel)" acty,i,a,,,,"ACTY value of ACT coorindates (pixel)" segment,i,a,0,0,3,"SEGMENT number of XIS (0-3)" rawx,i,a,0,,,"RAWX value of RAW coorindates (pixel)" rawy,i,a,0,,,"RAWY value of RAW coorindates (pixel)" ppux,i,a,0,,,"PPUX value of PPU coorindates (pixel)" ppuy,i,a,0,,,"PPUY value of PPU coorindates (pixel)" theta,r,a,0.0,,,"offset angle from optical axis (arcmin)" phi,r,a,0.0,,,"azimuth angle from XRT-S optical axis (deg)" xrs_skyx,r,a,765.22045549233,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,789.22712123315,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,754.700544835822,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,773.317733937229,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,114.700544835822,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,133.317733937229,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.25391512001578,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-160.754631729244,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,765.220001138926,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,789.229992802074,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,754.698633036968,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,773.318401393887,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,956.195633036969,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,773.318401393887,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.26128505783991,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-1.47053736626411,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,765.220000000037,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,789.229999999988,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,754.698628244827,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,773.318403066943,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,495.198628244827,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,505.818403066943,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,529,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,505,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,17,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,505,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,19,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,505,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.56303854931341,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-174.695983583516,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,765.220000000037,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,789.229999999988,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,754.698628244827,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,773.318403066943,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,495.198628244827,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,510.818403066943,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,510,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,494,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,1,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,1,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,494,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,3,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,494,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.12936911979103,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.999094990139,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,765.220000000037,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,789.229999999988,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,754.698628244827,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,773.318403066943,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,498.198628244827,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,499.818403066943,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,524,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,526,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,12,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,526,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,14,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,526,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.365742688708669,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,27.3737853275428,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,765.220000000037,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,789.229999999988,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,754.698628244827,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,773.318403066943,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,487.198628244827,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,513.818403066943,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,537,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,513,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,25,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,513,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,27,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,513,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.641113751152441,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,59.7421817109501,,,"azimuth angle from XIS3 optical axis (deg)" mjdrefi,i,h,51544,,,"integer part of the MJD-TT reference (2000.0 UT)" mjdreff,r,h,0.00074287037037037,,,"fractional part of the MJD-TT reference (64.184 s)" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,no,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,1000,,,"Event number printout frequency" chatter,i,h,5,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aecoordcalc
aecoordcalc version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aecoordcalc version 1.6
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = NO
CHATTER = 5
aecoordcalc: *** show parameter ***
INSTRUME XIS3
COORD SKY
X 765.220 (pixel)
Y 789.230 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae803005010xi3_0_3x3n066a_cl.evt+1'
EA1 186.349157865585 (deg)
EA2 71.814883272158 (deg)
EA3 155.821291080941 (deg)
REF_ALPHA 186.3492 (deg) / 12h25m23.8s
REF_DELTA 18.1851 (deg) / +18d11m06s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267335876.000 / 2008-06-21T03:57:55 in UTC
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits)
MJDREFI 51544
MJDREFF 0.00074287037037037
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits' (CALDB)
HXD_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/bcf/ae_hxd_teldef_20060810.fits' (CALDB)
XIS0_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
XIS1_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
XIS2_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi2_teldef_20080303.fits' (CALDB)
XIS3_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
Event... 1 (0)
J2000 ( 186.3502 , 18.1911 ) [deg] / ( 12h25m24.0s , +18d11m28s )
B1950 ( 185.7192 , 18.4679 ) [deg] / ( 12h22m52.6s , +18d28m05s )
Galactic ( 267.7118 , 79.2372 ) [deg]
Aberration ( 2.3708 , 6.3657 ) [arcsec], Ang.Distance = 6.7524
XRS SKY ( 765.2205 , 789.2271 ) [pixel]
XRS FOC ( 754.7005 , 773.3177 ) [pixel]
XRS DET ( 114.7005 , 133.3177 ) [pixel]
XRS THETA/PHI 0.2539 [arcmin] / -160.7546 [deg]
XRS PIXEL = 8
HXD SKY ( 765.2200 , 789.2300 ) [pixel]
HXD FOC ( 754.6986 , 773.3184 ) [pixel]
HXD DET ( 956.1956 , 773.3184 ) [pixel]
HXD THETA/PHI 3.2613 [arcmin] / -1.4705 [deg]
XIS0 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS0 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS0 DET ( 495.1986 , 505.8184 ) [pixel]
XIS0 ACT ( 529 , 505 ) [pixel]
XIS0 RAW ( 17 , 505 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 19 , 505 ) [pixel]
XIS0 THETA/PHI 1.5630 [arcmin] / -174.6960 [deg]
XIS1 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS1 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS1 DET ( 495.1986 , 510.8184 ) [pixel]
XIS1 ACT ( 510 , 494 ) [pixel]
XIS1 RAW ( 1 , 494 ) [pixel] at SEGMENT = 1
XIS1 PPU ( 3 , 494 ) [pixel]
XIS1 THETA/PHI 1.1294 [arcmin] / -143.9991 [deg]
XIS2 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS2 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS2 DET ( 498.1986 , 499.8184 ) [pixel]
XIS2 ACT ( 524 , 526 ) [pixel]
XIS2 RAW ( 12 , 526 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 14 , 526 ) [pixel]
XIS2 THETA/PHI 0.3657 [arcmin] / 27.3738 [deg]
XIS3 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS3 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS3 DET ( 487.1986 , 513.8184 ) [pixel]
XIS3 ACT ( 537 , 513 ) [pixel]
XIS3 RAW ( 25 , 513 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 27 , 513 ) [pixel]
XIS3 THETA/PHI 0.6411 [arcmin] / 59.7422 [deg]
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
QUIT: 1 |
<--- [ 1] aecoordcalc version 1.6
| OK: 0/1
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae803005010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(765,789,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22958 5978 16980 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22958 5978 16980 0 0 0 0
in 86021. seconds
Spectrum has 5978 counts for 6.9495E-02 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22958 5388 17570 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22958 5388 17570 0 0 0 0
in 86021. seconds
Spectrum has 5388 counts for 6.2636E-02 counts/sec
... written the PHA data Extension
-> Creating RMF for ae803005010xi3_0_3x3n066a_sr.piinfile,s,h,"ae803005010xi3_0_3x3n066a_sr.pi",,,"Please enter PHA filename" outfile,s,h,"grppha.out.tmp",,,"Please enter output filename" chatter,i,h,5,,,"Please enter Chatter flag" comm,s,h,"group min 25&bad 0-81 3290-4095&chkey RESPFILE /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi3_20060213.rmf&chkey ANCRFILE /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi3_xisnom6_20060615.arf&chkey BACKFILE ae803005010xi3_0_3x3n066a_bg.pi&show all&exit",,,"GRPPHA" tempc,s,h,,,,"GRPPHA" clobber,b,h,no,,,"Overwrite output file if it already exists ?" mode,s,h,"hl",,,"Mode"-> stdout output from grppha
------------------------- MANDATORY KEYWORDS/VALUES ------------------------- -------------------------------------------------------------------- -------------------------------------------------------------------- EXTNAME - SPECTRUM Name of this BINTABLE TELESCOP - SUZAKU Mission/Satellite name INSTRUME - XIS3 Instrument/Detector FILTER - NONE Instrument filter in use EXPOSURE - 86021. Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 8.28743E-02 Background scaling factor BACKFILE - none Associated background file CORRSCAL - 1.0000 Correlation scaling factor CORRFILE - none Associated correlation file RESPFILE - none Associated redistribution matrix file ANCRFILE - none Associated ancillary response file POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 4096 No. of legal detector channels NCHAN - 4096 No. of detector channels in dataset PHAVERSN - 1.2.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - FALSE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - FALSE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 114 are grouped by a factor 115 ... 115 - 125 are grouped by a factor 11 ... 126 - 134 are grouped by a factor 9 ... 135 - 142 are grouped by a factor 8 ... 143 - 152 are grouped by a factor 10 ... 153 - 164 are grouped by a factor 12 ... 165 - 173 are grouped by a factor 9 ... 174 - 188 are grouped by a factor 5 ... 189 - 191 are grouped by a factor 3 ... 192 - 193 are grouped by a factor 2 ... 194 - 199 are grouped by a factor 3 ... 200 - 207 are grouped by a factor 2 ... 208 - 213 are grouped by a factor 3 ... 214 - 223 are grouped by a factor 2 ... 224 - 224 are single channels ... 225 - 230 are grouped by a factor 2 ... 231 - 233 are grouped by a factor 3 ... 234 - 241 are grouped by a factor 2 ... 242 - 247 are grouped by a factor 3 ... 248 - 251 are grouped by a factor 2 ... 252 - 254 are grouped by a factor 3 ... 255 - 258 are grouped by a factor 4 ... 259 - 264 are grouped by a factor 3 ... 265 - 268 are grouped by a factor 4 ... 269 - 274 are grouped by a factor 3 ... 275 - 276 are grouped by a factor 2 ... 277 - 294 are grouped by a factor 3 ... 295 - 298 are grouped by a factor 4 ... 299 - 303 are grouped by a factor 5 ... 304 - 309 are grouped by a factor 3 ... 310 - 317 are grouped by a factor 4 ... 318 - 322 are grouped by a factor 5 ... 323 - 326 are grouped by a factor 4 ... 327 - 329 are grouped by a factor 3 ... 330 - 337 are grouped by a factor 4 ... 338 - 340 are grouped by a factor 3 ... 341 - 352 are grouped by a factor 4 ... 353 - 355 are grouped by a factor 3 ... 356 - 359 are grouped by a factor 4 ... 360 - 362 are grouped by a factor 3 ... 363 - 367 are grouped by a factor 5 ... 368 - 373 are grouped by a factor 3 ... 374 - 377 are grouped by a factor 4 ... 378 - 392 are grouped by a factor 5 ... 393 - 408 are grouped by a factor 4 ... 409 - 414 are grouped by a factor 3 ... 415 - 422 are grouped by a factor 4 ... 423 - 427 are grouped by a factor 5 ... 428 - 433 are grouped by a factor 6 ... 434 - 437 are grouped by a factor 4 ... 438 - 445 are grouped by a factor 8 ... 446 - 463 are grouped by a factor 6 ... 464 - 468 are grouped by a factor 5 ... 469 - 474 are grouped by a factor 6 ... 475 - 479 are grouped by a factor 5 ... 480 - 483 are grouped by a factor 4 ... 484 - 495 are grouped by a factor 6 ... 496 - 499 are grouped by a factor 4 ... 500 - 508 are grouped by a factor 9 ... 509 - 518 are grouped by a factor 10 ... 519 - 530 are grouped by a factor 12 ... 531 - 552 are grouped by a factor 11 ... 553 - 559 are grouped by a factor 7 ... 560 - 564 are grouped by a factor 5 ... 565 - 582 are grouped by a factor 9 ... 583 - 592 are grouped by a factor 10 ... 593 - 600 are grouped by a factor 8 ... 601 - 610 are grouped by a factor 10 ... 611 - 621 are grouped by a factor 11 ... 622 - 633 are grouped by a factor 12 ... 634 - 642 are grouped by a factor 9 ... 643 - 656 are grouped by a factor 14 ... 657 - 666 are grouped by a factor 10 ... 667 - 684 are grouped by a factor 18 ... 685 - 698 are grouped by a factor 14 ... 699 - 711 are grouped by a factor 13 ... 712 - 727 are grouped by a factor 16 ... 728 - 745 are grouped by a factor 18 ... 746 - 783 are grouped by a factor 19 ... 784 - 815 are grouped by a factor 16 ... 816 - 827 are grouped by a factor 12 ... 828 - 842 are grouped by a factor 15 ... 843 - 862 are grouped by a factor 20 ... 863 - 873 are grouped by a factor 11 ... 874 - 889 are grouped by a factor 16 ... 890 - 907 are grouped by a factor 18 ... 908 - 924 are grouped by a factor 17 ... 925 - 938 are grouped by a factor 14 ... 939 - 955 are grouped by a factor 17 ... 956 - 968 are grouped by a factor 13 ... 969 - 982 are grouped by a factor 14 ... 983 - 1006 are grouped by a factor 24 ... 1007 - 1023 are grouped by a factor 17 ... 1024 - 1055 are grouped by a factor 16 ... 1056 - 1079 are grouped by a factor 24 ... 1080 - 1102 are grouped by a factor 23 ... 1103 - 1121 are grouped by a factor 19 ... 1122 - 1137 are grouped by a factor 16 ... 1138 - 1160 are grouped by a factor 23 ... 1161 - 1186 are grouped by a factor 26 ... 1187 - 1207 are grouped by a factor 21 ... 1208 - 1225 are grouped by a factor 18 ... 1226 - 1275 are grouped by a factor 25 ... 1276 - 1298 are grouped by a factor 23 ... 1299 - 1325 are grouped by a factor 27 ... 1326 - 1347 are grouped by a factor 22 ... 1348 - 1367 are grouped by a factor 20 ... 1368 - 1396 are grouped by a factor 29 ... 1397 - 1412 are grouped by a factor 16 ... 1413 - 1439 are grouped by a factor 27 ... 1440 - 1465 are grouped by a factor 26 ... 1466 - 1492 are grouped by a factor 27 ... 1493 - 1513 are grouped by a factor 21 ... 1514 - 1545 are grouped by a factor 32 ... 1546 - 1571 are grouped by a factor 26 ... 1572 - 1595 are grouped by a factor 24 ... 1596 - 1615 are grouped by a factor 20 ... 1616 - 1639 are grouped by a factor 24 ... 1640 - 1669 are grouped by a factor 30 ... 1670 - 1702 are grouped by a factor 33 ... 1703 - 1723 are grouped by a factor 21 ... 1724 - 1749 are grouped by a factor 26 ... 1750 - 1779 are grouped by a factor 30 ... 1780 - 1822 are grouped by a factor 43 ... 1823 - 1914 are grouped by a factor 46 ... 1915 - 1947 are grouped by a factor 33 ... 1948 - 1992 are grouped by a factor 45 ... 1993 - 2019 are grouped by a factor 27 ... 2020 - 2033 are grouped by a factor 14 ... 2034 - 2043 are grouped by a factor 10 ... 2044 - 2051 are grouped by a factor 8 ... 2052 - 2060 are grouped by a factor 9 ... 2061 - 2073 are grouped by a factor 13 ... 2074 - 2093 are grouped by a factor 20 ... 2094 - 2136 are grouped by a factor 43 ... 2137 - 2187 are grouped by a factor 51 ... 2188 - 2245 are grouped by a factor 58 ... 2246 - 2285 are grouped by a factor 40 ... 2286 - 2351 are grouped by a factor 66 ... 2352 - 2402 are grouped by a factor 51 ... 2403 - 2459 are grouped by a factor 57 ... 2460 - 2528 are grouped by a factor 69 ... 2529 - 2581 are grouped by a factor 53 ... 2582 - 2630 are grouped by a factor 49 ... 2631 - 2654 are grouped by a factor 24 ... 2655 - 2677 are grouped by a factor 23 ... 2678 - 2738 are grouped by a factor 61 ... 2739 - 2817 are grouped by a factor 79 ... 2818 - 2905 are grouped by a factor 88 ... 2906 - 3012 are grouped by a factor 107 ... 3013 - 3106 are grouped by a factor 94 ... 3107 - 3144 are grouped by a factor 38 ... 3145 - 3193 are grouped by a factor 49 ... 3194 - 3275 are grouped by a factor 82 ... 3276 - 3328 are grouped by a factor 53 ... 3329 - 3408 are grouped by a factor 80 ... 3409 - 3521 are grouped by a factor 113 ... 3522 - 3625 are grouped by a factor 104 ... 3626 - 3706 are grouped by a factor 81 ... 3707 - 3818 are grouped by a factor 112 ... 3819 - 3961 are grouped by a factor 143 ... 3962 - 4095 are grouped by a factor 134 ... --------------------------------------------- ... QUALITY ... ... ------- ... QUALITY ... ------- ... Bad Channels (Channel - Channel) ... --------------------------------------------- ... 0 - 81 have quality 5 ... 3290 - 4095 have quality 5 ... --------------------------------------------- ... ... ----------------- ... SYSTEMATIC ERRORS ... ----------------- ... Systematic Errors have not been applied ... ... written the PHA data Extension ...... exiting, changes written to file : grppha.out.tmp ** grppha 3.0.1 completed successfully-> grppha successful on ae803005010xi3_0_3x3n066a_sr.pi.
XSPEC version: 12.4.0x
Build Date/Time: Sat May 24 04:33:09 2008
Executing script file "xspec_2_commands.tmp" ...
!XSPEC12>data 1:1 ae803005010xi0_0_3x3n066a_sr.pi;
1 spectrum in use
Spectral Data File: ae803005010xi0_0_3x3n066a_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 2.902e-02 +/- 1.046e-03 (42.0 % total)
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-213
Telescope: SUZAKU Instrument: XIS0 Channel Type: PI
Exposure Time: 8.602e+04 sec
Using Background File ae803005010xi0_0_3x3n066a_bg.pi
Background Exposure Time: 8.602e+04 sec
Using Response (RMF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi0_20060213.rmf for Source 1
Using Auxiliary Response (ARF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi0_xisnom6_20060615.arf
!XSPEC12>data 2:2 ae803005010xi1_0_3x3n069b_sr.pi;
2 spectra in use
Spectral Data File: ae803005010xi1_0_3x3n069b_sr.pi Spectrum 2
Net count rate (cts/s) for Spectrum:2 5.205e-02 +/- 2.190e-03 (19.0 % total)
Assigned to Data Group 2 and Plot Group 2
Noticed Channels: 1-658
Telescope: SUZAKU Instrument: XIS1 Channel Type: PI
Exposure Time: 8.602e+04 sec
Using Background File ae803005010xi1_0_3x3n069b_bg.pi
Background Exposure Time: 8.602e+04 sec
Using Response (RMF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi1_20060213.rmf for Source 1
Using Auxiliary Response (ARF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi1_xisnom6_20060615.arf
!XSPEC12>data 3:3 ae803005010xi3_0_3x3n066a_sr.pi;
3 spectra in use
Spectral Data File: ae803005010xi3_0_3x3n066a_sr.pi Spectrum 3
Net count rate (cts/s) for Spectrum:3 3.056e-02 +/- 1.044e-03 (44.0 % total)
Assigned to Data Group 3 and Plot Group 3
Noticed Channels: 1-212
Telescope: SUZAKU Instrument: XIS3 Channel Type: PI
Exposure Time: 8.602e+04 sec
Using Background File ae803005010xi3_0_3x3n066a_bg.pi
Background Exposure Time: 8.602e+04 sec
Using Response (RMF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi3_20060213.rmf for Source 1
Using Auxiliary Response (ARF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi3_xisnom6_20060615.arf
!XSPEC12>ignore bad;
ignore: 9 channels ignored from source number 1
ignore: 193 channels ignored from source number 2
ignore: 9 channels ignored from source number 3
!XSPEC12>ignore *:**-0.2 12.0-**;
1 channels (1) ignored in spectrum # 1
29 channels (1-29) ignored in spectrum # 2
1 channels (1) ignored in spectrum # 3
9 channels (205-213) ignored in spectrum # 1
150 channels (509-658) ignored in spectrum # 2
9 channels (204-212) ignored in spectrum # 3
!XSPEC12>setplot splashpage off;
!XSPEC12>setplot energy;
!XSPEC12>setplot device ae803005010xis_0_pi.gif/gif;
!XSPEC12>setplot com log y on;
!XSPEC12>setplot com rescale y;
!XSPEC12>setplot com label top SUZAKU XIS observation of NGC 4382 (Sequence 803005010);
!XSPEC12>setplot com label file Exposure time: 258.1ks (total from all detectors);
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae803005010xis_0_pi.gif.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23633 23633 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23633 23633 0 0 0 0 0
in 86021. seconds
Image has 23633 counts for 0.2747 counts/sec
-> stdout output from extractor
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_0_3x3n069b_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
105700 105700 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
105700 105700 0 0 0 0 0
in 86021. seconds
Image has 105700 counts for 1.229 counts/sec
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22958 22958 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22958 22958 0 0 0 0 0
in 86021. seconds
Image has 22958 counts for 0.2669 counts/sec
-> Creating four panel plot.No of detectors read in: 30 ![XIMAGE> cpd ae803005010xis_0_im.gif/gif ![XIMAGE> cey 2000 ![XIMAGE> viewport 2x2gif ![XIMAGE> read/fits/rebin=2/size=-20 ae803005010xi0_0_3x3n066a_sk.img Telescope SUZAKU XIS0 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 4.0000000 Copied MAP1 to MAP9 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 4. ![XIMAGE> ra_dec/ra=186.3502/dec=18.1911/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 765.218409113 Y = 789.225397617 ![XIMAGE> ra_dec/ra=186.3502/dec=18.1911/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 765.218409113 Y = 789.225397617 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$detname $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> read/fits/rebin=2/size=-20 ae803005010xi1_0_3x3n069b_sk.img Telescope SUZAKU XIS1 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 6.0000000 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 6. ![XIMAGE> ra_dec/ra=186.3502/dec=18.1911/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 765.218409113 Y = 789.225397617 ![XIMAGE> ra_dec/ra=186.3502/dec=18.1911/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 765.218409113 Y = 789.225397617 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$detname $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> read/fits/rebin=2/size=-20 ae803005010xi3_0_3x3n066a_sk.img Telescope SUZAKU XIS3 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 4.0000000 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 4. ![XIMAGE> ra_dec/ra=186.3502/dec=18.1911/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 765.218409113 Y = 789.225397617 ![XIMAGE> ra_dec/ra=186.3502/dec=18.1911/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 765.218409113 Y = 789.225397617 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$detname $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> chh key=telescop ![XIMAGE> set telescop [chh key=telescop] ![XIMAGE> chh key=object ![XIMAGE> set field [chh key=object] ![XIMAGE> vplabel/top "$telescop XIS observation of $field (Sequence 803005010)" ![XIMAGE> scale ![XIMAGE> exit
read_iomode,s,h,"readonly",,,"HXD wam fits input I/O mode : always readonly" time_change,b,h,n,,,"HXD wam fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD wam fits update PI : yes or no ?" quality_change,b,h,y,,,"HXD wam fits update QUALITY : yes or no ?" gtimode,b,h,n,,,"HXD wam fits using GTI : yes or no ?" gti_time,s,h,"TIME",,,"HXD wam fits using time : TIME or S_TIME ?" leapfile,f,a,"CALDB",,,"leapsec file name" input_name,fr,a,"ae803005010hxd_1_wam_uf.evt",,,"HXD wam fits file name ?" outroot,s,a,"ae803005010hxd",,,"Root name for output file?" tpu_board,i,h,"-1",,,"TPU board (-1=all, 0,1,2,3)?" ph_mode,i,h,1,,,"PH or others?(0:others, 1:PH)" min_channel,i,h,0,,,"Minimum Channel Number [0-54]" max_channel,i,h,54,,,"Maximum Channel Number [0-54]" dt_cor,b,h,y,,,"Perform a deadtime correction?: yes or no?" dt_clk,r,h,"1.28e-05",,,"Deadtime clock frequency" origin,s,h,"ISAS/JAXA",,,"ORIGIN" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkwamlc
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDrndInit version 0.2.0
HXDmktrnlc version 2.0.0
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmktrnlc version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 10001 (10000)
Event... 20001 (20000)
Event... 30001 (30000)
Event... 40001 (40000)
Event... 50001 (50000)
Event... 60001 (60000)
Event... 70001 (70000)
Event... 80001 (80000)
Event... 90001 (90000)
Event... 100001 (100000)
Event... 110001 (110000)
Event... 120001 (120000)
Event... 130001 (130000)
Event... 140001 (140000)
Event... 150001 (150000)
Event... 160001 (160000)
Event... 170001 (170000)
Event... 180001 (180000)
Event... 190001 (190000)
Event... 200001 (200000)
Event... 210001 (210000)
Event... 220001 (220000)
Event... 230001 (230000)
Event... 240001 (240000)
Event... 250001 (250000)
Event... 260001 (260000)
Event... 270001 (270000)
Event... 280001 (280000)
Event... 290001 (290000)
Event... 300001 (300000)
Event... 310001 (310000)
Event... 320001 (320000)
Event... 330001 (330000)
Event... 340001 (340000)
Event... 350001 (350000)
Event... 360001 (360000)
Event... 370001 (370000)
Event... 380001 (380000)
Event... 390001 (390000)
Event... 400001 (400000)
Event... 410001 (410000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 411841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 411840/411841
[ 2] HXDleapsecInit version 2.0.1
| OK: 411840/411840
[ 3] HXDmktrnlc version 2.0.0
| OK: 411840/411840
GET: 411840
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 60/5000
buffer size : 120000
buffer used : 8544
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 27 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:TRN:EV_TIME 8 8 411840 411840 SINGLE
HXD:TRN:PACKET_AETIME 8 8 411840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 411840 823680 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 411840 0 SINGLE
HXD:TRB:IBLOCK 4 4 411840 823680 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 411840 411840 SINGLE
HXD:TRN:BOARD 4 4 411840 823680 SINGLE
HXD:TRN:BLOCK 4 4 411840 823680 SINGLE
HXD:TRN:RDBIN 4 4 411840 823680 SINGLE
HXD:TRN:TBLID 4 4 411840 823680 SINGLE
HXD:TRN:DATA_SIZE 4 4 411840 823680 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 411840 823680 SINGLE
HXD:TRH:BLOCK 4 4 411840 823680 SINGLE
HXD:TRH:TIME 4 4 411840 411840 SINGLE
HXD:TRH:GB_TIME 4 4 411840 411840 SINGLE
HXD:TRH:GB_FLG 4 4 411840 823680 SINGLE
HXD:TRH:TIME_MODE 4 4 411840 823680 SINGLE
HXD:TRH:RBM 4 4 411840 823680 SINGLE
HXD:TRH:GB_FRZ 4 4 411840 823680 SINGLE
HXD:TRH:DT_MODE 4 4 411840 823680 SINGLE
HXD:TRH:SUMLD_MODE 4 4 411840 823680 SINGLE
HXD:TRH:BOARD 4 4 411840 823680 SINGLE
HXD:TRH:GB_TRG 4 4 411840 823680 SINGLE
HXD:TRB:PI 216 216 411840 0 SINGLE
HXD:TRB:PH 216 216 411840 823680 SINGLE
HXD:TRB:OVER_FLOW 4 4 411840 823680 SINGLE
HXD:TRB:PSEUDO 4 4 411840 823680 SINGLE
HXD:TRB:TRN_ANT 20 20 411840 823680 SINGLE
HXD:TRB:UD 4 4 411840 823680 SINGLE
HXD:TRB:DEAD_TIME 4 4 411840 823680 SINGLE
HXD:TRB:SUM_LD 4 4 411840 823680 SINGLE
HXD:TRB:WELL_ANT 16 16 411840 823680 SINGLE
HXD:TRN:TRN_QUALITY 4 4 411840 0 SINGLE
HXDtrnFitsRead:IROW 4 4 411840 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 28 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:NROW 4 4 1 0 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 411840 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
ASTE:FFF_ORIGIN 256 10 1 4 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.460 0.984 9.444 77.58
[ 2] HXDleapsecInit 0.083 0.268 0.351 2.88
[ 3] HXDmktrnlc 1.766 0.587 2.353 19.33
(others) 0.017 0.009 0.026 0.21
--------------------------------------------------------------------------
TOTAL 10.325 1.848 12.173 100.00
-> hxdmkwamlc ran successfully.read_iomode,s,h,"readonly",,,"HXD wam fits input I/O mode : always readonly" time_change,b,h,n,,,"HXD wam fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD wam fits update PI : yes or no ?" quality_change,b,h,y,,,"HXD wam fits update QUALITY : yes or no ?" gtimode,b,h,n,,,"HXD wam fits using GTI : yes or no ?" gti_time,s,h,"TIME",,,"HXD wam fits using time : TIME or S_TIME ?" leapfile,f,a,"CALDB",,,"leapsec file name" input_name,fr,a,"ae803005010hxd_2_wam_uf.evt",,,"HXD wam fits file name ?" outroot,s,a,"ae803005010hxd",,,"Root name for output file?" tpu_board,i,h,"-1",,,"TPU board (-1=all, 0,1,2,3)?" ph_mode,i,h,1,,,"PH or others?(0:others, 1:PH)" min_channel,i,h,0,,,"Minimum Channel Number [0-54]" max_channel,i,h,54,,,"Maximum Channel Number [0-54]" dt_cor,b,h,y,,,"Perform a deadtime correction?: yes or no?" dt_clk,r,h,"1.28e-05",,,"Deadtime clock frequency" origin,s,h,"ISAS/JAXA",,,"ORIGIN" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkwamlc
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDrndInit version 0.2.0
HXDmktrnlc version 2.0.0
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmktrnlc version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 10001 (10000)
Event... 20001 (20000)
Event... 30001 (30000)
Event... 40001 (40000)
Event... 50001 (50000)
Event... 60001 (60000)
Event... 70001 (70000)
Event... 80001 (80000)
Event... 90001 (90000)
Event... 100001 (100000)
Event... 110001 (110000)
Event... 120001 (120000)
Event... 130001 (130000)
Event... 140001 (140000)
Event... 150001 (150000)
Event... 160001 (160000)
Event... 170001 (170000)
Event... 180001 (180000)
Event... 190001 (190000)
Event... 200001 (200000)
Event... 210001 (210000)
Event... 220001 (220000)
Event... 230001 (230000)
Event... 240001 (240000)
Event... 250001 (250000)
Event... 260001 (260000)
Event... 270001 (270000)
Event... 280001 (280000)
Event... 290001 (290000)
Event... 300001 (300000)
Event... 310001 (310000)
Event... 320001 (320000)
Event... 330001 (330000)
Event... 340001 (340000)
Event... 350001 (350000)
Event... 360001 (360000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 362977
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 362976/362977
[ 2] HXDleapsecInit version 2.0.1
| OK: 362976/362976
[ 3] HXDmktrnlc version 2.0.0
| OK: 362976/362976
GET: 362976
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 60/5000
buffer size : 120000
buffer used : 8544
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 27 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:TRN:EV_TIME 8 8 362976 362976 SINGLE
HXD:TRN:PACKET_AETIME 8 8 362976 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 362976 725952 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 362976 0 SINGLE
HXD:TRB:IBLOCK 4 4 362976 725952 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 362976 362976 SINGLE
HXD:TRN:BOARD 4 4 362976 725952 SINGLE
HXD:TRN:BLOCK 4 4 362976 725952 SINGLE
HXD:TRN:RDBIN 4 4 362976 725952 SINGLE
HXD:TRN:TBLID 4 4 362976 725952 SINGLE
HXD:TRN:DATA_SIZE 4 4 362976 725952 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 362976 725952 SINGLE
HXD:TRH:BLOCK 4 4 362976 725952 SINGLE
HXD:TRH:TIME 4 4 362976 362976 SINGLE
HXD:TRH:GB_TIME 4 4 362976 362976 SINGLE
HXD:TRH:GB_FLG 4 4 362976 725952 SINGLE
HXD:TRH:TIME_MODE 4 4 362976 725952 SINGLE
HXD:TRH:RBM 4 4 362976 725952 SINGLE
HXD:TRH:GB_FRZ 4 4 362976 725952 SINGLE
HXD:TRH:DT_MODE 4 4 362976 725952 SINGLE
HXD:TRH:SUMLD_MODE 4 4 362976 725952 SINGLE
HXD:TRH:BOARD 4 4 362976 725952 SINGLE
HXD:TRH:GB_TRG 4 4 362976 725952 SINGLE
HXD:TRB:PI 216 216 362976 0 SINGLE
HXD:TRB:PH 216 216 362976 725952 SINGLE
HXD:TRB:OVER_FLOW 4 4 362976 725952 SINGLE
HXD:TRB:PSEUDO 4 4 362976 725952 SINGLE
HXD:TRB:TRN_ANT 20 20 362976 725952 SINGLE
HXD:TRB:UD 4 4 362976 725952 SINGLE
HXD:TRB:DEAD_TIME 4 4 362976 725952 SINGLE
HXD:TRB:SUM_LD 4 4 362976 725952 SINGLE
HXD:TRB:WELL_ANT 16 16 362976 725952 SINGLE
HXD:TRN:TRN_QUALITY 4 4 362976 0 SINGLE
HXDtrnFitsRead:IROW 4 4 362976 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 28 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:NROW 4 4 1 0 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 362976 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
ASTE:FFF_ORIGIN 256 10 1 4 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 7.236 0.878 8.114 75.09
[ 2] HXDleapsecInit 0.090 0.221 0.311 2.88
[ 3] HXDmktrnlc 1.789 0.568 2.357 21.81
(others) 0.018 0.006 0.024 0.22
--------------------------------------------------------------------------
TOTAL 9.133 1.673 10.805 100.00
-> hxdmkwamlc ran successfully.read_iomode,s,h,"readonly",,,"HXD wam fits input I/O mode : always readonly" time_change,b,h,n,,,"HXD wam fits update TIME : yes or no ?" pi_change,b,h,n,,,"HXD wam fits update PI : yes or no ?" quality_change,b,h,y,,,"HXD wam fits update QUALITY : yes or no ?" gtimode,b,h,n,,,"HXD wam fits using GTI : yes or no ?" gti_time,s,h,"TIME",,,"HXD wam fits using time : TIME or S_TIME ?" leapfile,f,a,"CALDB",,,"leapsec file name" input_name,fr,a,"ae803005010hxd_3_wam_uf.evt",,,"HXD wam fits file name ?" outroot,s,a,"ae803005010hxd",,,"Root name for output file?" tpu_board,i,h,"-1",,,"TPU board (-1=all, 0,1,2,3)?" ph_mode,i,h,1,,,"PH or others?(0:others, 1:PH)" min_channel,i,h,0,,,"Minimum Channel Number [0-54]" max_channel,i,h,54,,,"Maximum Channel Number [0-54]" dt_cor,b,h,y,,,"Perform a deadtime correction?: yes or no?" dt_clk,r,h,"1.28e-05",,,"Deadtime clock frequency" origin,s,h,"ISAS/JAXA",,,"ORIGIN" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkwamlc
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDrndInit version 0.2.0
HXDmktrnlc version 2.0.0
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmktrnlc version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 10001 (10000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 14193
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 14192/14193
[ 2] HXDleapsecInit version 2.0.1
| OK: 14192/14192
[ 3] HXDmktrnlc version 2.0.0
| OK: 14192/14192
GET: 14192
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 60/5000
buffer size : 120000
buffer used : 8544
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdwamtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkwamgainhist_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwampi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdwamgrade_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:pi_change 4 0 0 0 SINGLE
HXD:PIL:quality_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 0 0 0 SINGLE
HXD:PIL:input_name 256 27 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:TRN:EV_TIME 8 8 14192 14192 SINGLE
HXD:TRN:PACKET_AETIME 8 8 14192 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 14192 28384 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 14192 0 SINGLE
HXD:TRB:IBLOCK 4 4 14192 28384 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 14192 14192 SINGLE
HXD:TRN:BOARD 4 4 14192 28384 SINGLE
HXD:TRN:BLOCK 4 4 14192 28384 SINGLE
HXD:TRN:RDBIN 4 4 14192 28384 SINGLE
HXD:TRN:TBLID 4 4 14192 28384 SINGLE
HXD:TRN:DATA_SIZE 4 4 14192 28384 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 14192 28384 SINGLE
HXD:TRH:BLOCK 4 4 14192 28384 SINGLE
HXD:TRH:TIME 4 4 14192 14192 SINGLE
HXD:TRH:GB_TIME 4 4 14192 14192 SINGLE
HXD:TRH:GB_FLG 4 4 14192 28384 SINGLE
HXD:TRH:TIME_MODE 4 4 14192 28384 SINGLE
HXD:TRH:RBM 4 4 14192 28384 SINGLE
HXD:TRH:GB_FRZ 4 4 14192 28384 SINGLE
HXD:TRH:DT_MODE 4 4 14192 28384 SINGLE
HXD:TRH:SUMLD_MODE 4 4 14192 28384 SINGLE
HXD:TRH:BOARD 4 4 14192 28384 SINGLE
HXD:TRH:GB_TRG 4 4 14192 28384 SINGLE
HXD:TRB:PI 216 216 14192 0 SINGLE
HXD:TRB:PH 216 216 14192 28384 SINGLE
HXD:TRB:OVER_FLOW 4 4 14192 28384 SINGLE
HXD:TRB:PSEUDO 4 4 14192 28384 SINGLE
HXD:TRB:TRN_ANT 20 20 14192 28384 SINGLE
HXD:TRB:UD 4 4 14192 28384 SINGLE
HXD:TRB:DEAD_TIME 4 4 14192 28384 SINGLE
HXD:TRB:SUM_LD 4 4 14192 28384 SINGLE
HXD:TRB:WELL_ANT 16 16 14192 28384 SINGLE
HXD:TRN:TRN_QUALITY 4 4 14192 0 SINGLE
HXDtrnFitsRead:IROW 4 4 14192 0 SINGLE
HXDtrnFitsRead:FILE_P 8 4 1 1 SINGLE
HXDtrnFitsRead:FILE_NAME 1999 28 1 0 SINGLE
HXDtrnFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDtrnFitsRead:IOMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDtrnFitsRead:NROW 4 4 1 0 SINGLE
HXDtrnFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:PI:CHANGE 4 4 1 0 SINGLE
HXDtrnFitsRead:QUALITY:CHANGE 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 14192 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
ASTE:FFF_ORIGIN 256 10 1 4 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 0.280 0.034 0.314 61.69
[ 2] HXDleapsecInit 0.007 0.008 0.015 2.95
[ 3] HXDmktrnlc 0.106 0.050 0.156 30.65
(others) 0.013 0.011 0.024 4.72
--------------------------------------------------------------------------
TOTAL 0.406 0.103 0.509 100.00
-> hxdmkwamlc ran successfully.
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
Doing file: ae803005010hxd_0_gsono_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
3571475 3571475 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
3571475 3571475 0 0 0 0 0
in 93445. seconds
Fits light curve has 3571475 counts for 38.22 counts/sec
-> stdout output from extractor
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
Doing file: ae803005010hxd_0_pinno_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
44633 44633 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
44633 44633 0 0 0 0 0
in 93445. seconds
Fits light curve has 44633 counts for 0.4776 counts/sec
-> lcurve cmd: color 1 on 2
lcurve 1.0 (xronos5.21)
Series 1 file 1:ae803005010hxd_0_gsono_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ NGC 4382 Start Time (d) .... 14638 04:41:39.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14640 10:23:24.184
No. of Rows ....... 937 Bin Time (s) ...... 104.7
Right Ascension ... 186.3502 Internal time sys.. Converted to TJD
Declination ....... 18.1911 Experiment ........ SUZAKU HXD
Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - Yes
Selected Columns: 1- Time; 2- Y-axis; 3- Y-error; 4- Fractional exposure;
File contains binned data.
Series 2 file 1:ae803005010hxd_0_pinno_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ NGC 4382 Start Time (d) .... 14638 04:41:39.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14640 10:23:24.184
No. of Rows ....... 937 Bin Time (s) ...... 104.7
Right Ascension ... 186.3502 Internal time sys.. Converted to TJD
Declination ....... 18.1911 Experiment ........ SUZAKU HXD
Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - Yes
Selected Columns: 1- Time; 2- Y-axis; 3- Y-error; 4- Fractional exposure;
File contains binned data.
Expected Start ... 14638.19559240741 (days) 4:41:39:184 (h:m:s:ms)
Expected Stop .... 14640.43291879629 (days) 10:23:24:184 (h:m:s:ms)
Minimum Newbin Time 104.68000 (s)
for Maximum Newbin No.. 1847
Default Newbin Time is: 377.99179 (s) (to have 1 Intv. of 512 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 377.99179 (s)
Maximum Newbin No. 512
Default Newbins per Interval are: 512
(giving 1 Interval of 512 Newbins)
Type INDEF to accept the default value
Maximum of 1 Intvs. with 512 Newbins of 377.992 (s)
Three plotting styles available:
Hardness [1] ; Intensity vs Time (or Phase) [2];
Ratio & Intensity vs time (or Phase)[3]
512 analysis results per interval
1% completed
2% completed
3% completed
4% completed
5% completed
6% completed
7% completed
8% completed
9% completed
10% completed
11% completed
12% completed
13% completed
14% completed
15% completed
16% completed
17% completed
18% completed
19% completed
20% completed
21% completed
22% completed
23% completed
24% completed
25% completed
26% completed
27% completed
28% completed
29% completed
30% completed
31% completed
32% completed
33% completed
34% completed
35% completed
36% completed
37% completed
38% completed
39% completed
40% completed
41% completed
42% completed
43% completed
44% completed
45% completed
46% completed
47% completed
48% completed
49% completed
50% completed
51% completed
52% completed
53% completed
54% completed
55% completed
56% completed
57% completed
58% completed
59% completed
60% completed
61% completed
62% completed
63% completed
64% completed
65% completed
66% completed
67% completed
68% completed
69% completed
70% completed
71% completed
72% completed
73% completed
74% completed
75% completed
76% completed
77% completed
78% completed
79% completed
80% completed
81% completed
82% completed
83% completed
84% completed
85% completed
86% completed
87% completed
88% completed
89% completed
90% completed
91% completed
92% completed
93% completed
94% completed
95% completed
96% completed
97% completed
98% completed
99% completed
100% completed
Intv 1 Start 14638 4:44:48
Ser.1 Avg 38.09 Chisq 5250. Var 5.955 Newbs. 286
Min 31.67 Max 44.68 expVar 0.3216 Bins 937
Ser.2 Avg 0.4916 Chisq 200.6 Var 0.1414E-01 Newbs. 286
Min 0.2367 Max 1.667 expVar 0.8893E-02 Bins 937
-> Creating light curves for XIS.Input sky coordinates: 1.8635020000000E+02, 1.8191100000000E+01 Output pixel coordinates: 7.6521840911334E+02, 7.8922539761698E+02-> Contents of aecoordcalc.par
instrume,s,a,"XIS0",,,"any of XRS/HXD/XIS0-3 to specify instrument" coord,s,a,"SKY",,,"any of ECS/J2000/B1950/GAL/SKY/FOC/DET/OPTIC to specify input coordinates" output,s,a,"FULL",,,"any of FULL/XRS/HXD/XIS0-3 for message output" attitude,f,a,"KEY",,,"attitude file, or KEY/USER" pointing,s,a,"KEY",,,"pointing type, KEY/USER" infile,f,a,"ae803005010xi0_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,186.349157865585,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,71.814883272158,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,155.821291080941,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"186.3492",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"18.1851",,,"DEC. of the reference pixel in deg or +NNdNNmNN.NNs" ref_roll,r,a,0,,,"roll angle of Y-axis from the north (deg)" aberration,b,h,yes,,,"correct aberration ?" t,s,a,"267335876.000000",,,"The Astro-E time (s) or date string 'yyyy-mm-ddThh:mm:ss.sss'" leapfile,f,h,"CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits",,,"location of leap-seconds file" xrs_teldef,f,h,"CALDB",,,"location of XRS teldef file" hxd_teldef,f,h,"CALDB",,,"location of HXD teldef file" xis0_teldef,f,h,"CALDB",,,"location of XIS0 teldef file" xis1_teldef,f,h,"CALDB",,,"location of XIS1 teldef file" xis2_teldef,f,h,"CALDB",,,"location of XIS2 teldef file" xis3_teldef,f,h,"CALDB",,,"location of XIS3 teldef file" alpha,s,a,"162.8",,,"R.A. in deg or NNhNNmNN.NNs" delta,s,a,"57.42",,,"DEC. in deg or +NNdNNmNN.NNs" alphaJ2000,r,a,186.350199496105,,,"R.A. (J2000) in deg" deltaJ2000,r,a,18.19110121765,,,"DEC. (J2000) in deg" alphaB1950,r,a,185.719236772781,,,"R.A. (B1950) in deg" deltaB1950,r,a,18.4679267493212,,,"DEC. (B1950) in deg" aber_alpha,r,a,0.000658557448929287,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.00176824898915484,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,6.75241181669585,,,"angular difference in arcsec by aberration" l,r,a,267.711809901518,,,"Galactic longitude (deg)" b,r,a,79.2372261515639,,,"Galactic latitude (deg)" x,r,a,765.22,,,"X value of SKY coorindates (pixel)" y,r,a,789.23,,,"Y value of SKY coorindates (pixel)" focx,r,a,,,,"FOCX value of FOC coorindates (pixel)" focy,r,a,,,,"FOCY value of FOC coorindates (pixel)" detx,r,a,,,,"DETX value of DET coorindates (pixel)" dety,r,a,,,,"DETY value of DET coorindates (pixel)" pixel,i,a,,0,31,"PIXEL number of XRS (0-31)" corner,i,a,,0,4,"corner 0:center, 1:left-low, 2:right-low, 3:right-up, 4:left-up" actx,i,a,,,,"ACTX value of ACT coorindates (pixel)" acty,i,a,,,,"ACTY value of ACT coorindates (pixel)" segment,i,a,0,0,3,"SEGMENT number of XIS (0-3)" rawx,i,a,0,,,"RAWX value of RAW coorindates (pixel)" rawy,i,a,0,,,"RAWY value of RAW coorindates (pixel)" ppux,i,a,0,,,"PPUX value of PPU coorindates (pixel)" ppuy,i,a,0,,,"PPUY value of PPU coorindates (pixel)" theta,r,a,0.0,,,"offset angle from optical axis (arcmin)" phi,r,a,0.0,,,"azimuth angle from XRT-S optical axis (deg)" xrs_skyx,r,a,765.22045549233,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,789.22712123315,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,754.700544835822,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,773.317733937229,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,114.700544835822,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,133.317733937229,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.25391512001578,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-160.754631729244,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,765.220001138926,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,789.229992802074,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,754.698633036968,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,773.318401393887,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,956.195633036969,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,773.318401393887,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.26128505783991,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-1.47053736626411,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,765.220000000037,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,789.229999999988,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,754.698628244827,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,773.318403066943,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,495.198628244827,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,505.818403066943,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,529,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,505,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,17,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,505,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,19,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,505,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.56303854931341,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-174.695983583516,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,765.220000000037,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,789.229999999988,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,754.698628244827,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,773.318403066943,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,495.198628244827,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,510.818403066943,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,510,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,494,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,1,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,1,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,494,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,3,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,494,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.12936911979103,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.999094990139,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,765.220000000037,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,789.229999999988,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,754.698628244827,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,773.318403066943,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,498.198628244827,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,499.818403066943,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,524,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,526,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,12,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,526,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,14,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,526,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.365742688708669,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,27.3737853275428,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,765.220000000037,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,789.229999999988,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,754.698628244827,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,773.318403066943,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,487.198628244827,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,513.818403066943,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,537,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,513,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,25,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,513,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,27,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,513,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.641113751152441,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,59.7421817109501,,,"azimuth angle from XIS3 optical axis (deg)" mjdrefi,i,h,51544,,,"integer part of the MJD-TT reference (2000.0 UT)" mjdreff,r,h,0.00074287037037037,,,"fractional part of the MJD-TT reference (64.184 s)" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,no,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,1000,,,"Event number printout frequency" chatter,i,h,5,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aecoordcalc
aecoordcalc version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aecoordcalc version 1.6
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = NO
CHATTER = 5
aecoordcalc: *** show parameter ***
INSTRUME XIS0
COORD SKY
X 765.220 (pixel)
Y 789.230 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae803005010xi0_0_3x3n066a_cl.evt+1'
EA1 186.349157865585 (deg)
EA2 71.814883272158 (deg)
EA3 155.821291080941 (deg)
REF_ALPHA 186.3492 (deg) / 12h25m23.8s
REF_DELTA 18.1851 (deg) / +18d11m06s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267335876.000 / 2008-06-21T03:57:55 in UTC
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits)
MJDREFI 51544
MJDREFF 0.00074287037037037
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits' (CALDB)
HXD_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/bcf/ae_hxd_teldef_20060810.fits' (CALDB)
XIS0_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
XIS1_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
XIS2_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi2_teldef_20080303.fits' (CALDB)
XIS3_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
Event... 1 (0)
J2000 ( 186.3502 , 18.1911 ) [deg] / ( 12h25m24.0s , +18d11m28s )
B1950 ( 185.7192 , 18.4679 ) [deg] / ( 12h22m52.6s , +18d28m05s )
Galactic ( 267.7118 , 79.2372 ) [deg]
Aberration ( 2.3708 , 6.3657 ) [arcsec], Ang.Distance = 6.7524
XRS SKY ( 765.2205 , 789.2271 ) [pixel]
XRS FOC ( 754.7005 , 773.3177 ) [pixel]
XRS DET ( 114.7005 , 133.3177 ) [pixel]
XRS THETA/PHI 0.2539 [arcmin] / -160.7546 [deg]
XRS PIXEL = 8
HXD SKY ( 765.2200 , 789.2300 ) [pixel]
HXD FOC ( 754.6986 , 773.3184 ) [pixel]
HXD DET ( 956.1956 , 773.3184 ) [pixel]
HXD THETA/PHI 3.2613 [arcmin] / -1.4705 [deg]
XIS0 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS0 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS0 DET ( 495.1986 , 505.8184 ) [pixel]
XIS0 ACT ( 529 , 505 ) [pixel]
XIS0 RAW ( 17 , 505 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 19 , 505 ) [pixel]
XIS0 THETA/PHI 1.5630 [arcmin] / -174.6960 [deg]
XIS1 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS1 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS1 DET ( 495.1986 , 510.8184 ) [pixel]
XIS1 ACT ( 510 , 494 ) [pixel]
XIS1 RAW ( 1 , 494 ) [pixel] at SEGMENT = 1
XIS1 PPU ( 3 , 494 ) [pixel]
XIS1 THETA/PHI 1.1294 [arcmin] / -143.9991 [deg]
XIS2 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS2 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS2 DET ( 498.1986 , 499.8184 ) [pixel]
XIS2 ACT ( 524 , 526 ) [pixel]
XIS2 RAW ( 12 , 526 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 14 , 526 ) [pixel]
XIS2 THETA/PHI 0.3657 [arcmin] / 27.3738 [deg]
XIS3 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS3 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS3 DET ( 487.1986 , 513.8184 ) [pixel]
XIS3 ACT ( 537 , 513 ) [pixel]
XIS3 RAW ( 25 , 513 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 27 , 513 ) [pixel]
XIS3 THETA/PHI 0.6411 [arcmin] / 59.7422 [deg]
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
QUIT: 1 |
<--- [ 1] aecoordcalc version 1.6
| OK: 0/1
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae803005010xi0_0_3x3n066a_cl.evt_source.reg.tmp circle(765,789,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi0_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
23633 3671 19962 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
23633 3671 19962 0 0 0 0
in 86021. seconds
Fits light curve has 3671 counts for 4.2676E-02 counts/sec
Thresholding removed more than half the bins
Try exposure=0.0 on the extract command in xselect
or lcthresh=0.0 if running extractor stand-alone
-> Creating source region file.Input sky coordinates: 1.8635020000000E+02, 1.8191100000000E+01 Output pixel coordinates: 7.6521840911334E+02, 7.8922539761698E+02-> Contents of aecoordcalc.par
instrume,s,a,"XIS1",,,"any of XRS/HXD/XIS0-3 to specify instrument" coord,s,a,"SKY",,,"any of ECS/J2000/B1950/GAL/SKY/FOC/DET/OPTIC to specify input coordinates" output,s,a,"FULL",,,"any of FULL/XRS/HXD/XIS0-3 for message output" attitude,f,a,"KEY",,,"attitude file, or KEY/USER" pointing,s,a,"KEY",,,"pointing type, KEY/USER" infile,f,a,"ae803005010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,186.349157865585,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,71.814883272158,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,155.821291080941,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"186.3492",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"18.1851",,,"DEC. of the reference pixel in deg or +NNdNNmNN.NNs" ref_roll,r,a,0,,,"roll angle of Y-axis from the north (deg)" aberration,b,h,yes,,,"correct aberration ?" t,s,a,"267335876.000000",,,"The Astro-E time (s) or date string 'yyyy-mm-ddThh:mm:ss.sss'" leapfile,f,h,"CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits",,,"location of leap-seconds file" xrs_teldef,f,h,"CALDB",,,"location of XRS teldef file" hxd_teldef,f,h,"CALDB",,,"location of HXD teldef file" xis0_teldef,f,h,"CALDB",,,"location of XIS0 teldef file" xis1_teldef,f,h,"CALDB",,,"location of XIS1 teldef file" xis2_teldef,f,h,"CALDB",,,"location of XIS2 teldef file" xis3_teldef,f,h,"CALDB",,,"location of XIS3 teldef file" alpha,s,a,"162.8",,,"R.A. in deg or NNhNNmNN.NNs" delta,s,a,"57.42",,,"DEC. in deg or +NNdNNmNN.NNs" alphaJ2000,r,a,186.350199496105,,,"R.A. (J2000) in deg" deltaJ2000,r,a,18.19110121765,,,"DEC. (J2000) in deg" alphaB1950,r,a,185.719236772781,,,"R.A. (B1950) in deg" deltaB1950,r,a,18.4679267493212,,,"DEC. (B1950) in deg" aber_alpha,r,a,0.000658557448929287,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.00176824898915484,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,6.75241181669585,,,"angular difference in arcsec by aberration" l,r,a,267.711809901518,,,"Galactic longitude (deg)" b,r,a,79.2372261515639,,,"Galactic latitude (deg)" x,r,a,765.22,,,"X value of SKY coorindates (pixel)" y,r,a,789.23,,,"Y value of SKY coorindates (pixel)" focx,r,a,,,,"FOCX value of FOC coorindates (pixel)" focy,r,a,,,,"FOCY value of FOC coorindates (pixel)" detx,r,a,,,,"DETX value of DET coorindates (pixel)" dety,r,a,,,,"DETY value of DET coorindates (pixel)" pixel,i,a,,0,31,"PIXEL number of XRS (0-31)" corner,i,a,,0,4,"corner 0:center, 1:left-low, 2:right-low, 3:right-up, 4:left-up" actx,i,a,,,,"ACTX value of ACT coorindates (pixel)" acty,i,a,,,,"ACTY value of ACT coorindates (pixel)" segment,i,a,0,0,3,"SEGMENT number of XIS (0-3)" rawx,i,a,0,,,"RAWX value of RAW coorindates (pixel)" rawy,i,a,0,,,"RAWY value of RAW coorindates (pixel)" ppux,i,a,0,,,"PPUX value of PPU coorindates (pixel)" ppuy,i,a,0,,,"PPUY value of PPU coorindates (pixel)" theta,r,a,0.0,,,"offset angle from optical axis (arcmin)" phi,r,a,0.0,,,"azimuth angle from XRT-S optical axis (deg)" xrs_skyx,r,a,765.22045549233,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,789.22712123315,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,754.700544835822,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,773.317733937229,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,114.700544835822,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,133.317733937229,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.25391512001578,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-160.754631729244,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,765.220001138926,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,789.229992802074,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,754.698633036968,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,773.318401393887,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,956.195633036969,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,773.318401393887,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.26128505783991,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-1.47053736626411,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,765.220000000037,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,789.229999999988,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,754.698628244827,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,773.318403066943,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,495.198628244827,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,505.818403066943,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,529,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,505,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,17,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,505,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,19,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,505,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.56303854931341,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-174.695983583516,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,765.220000000037,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,789.229999999988,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,754.698628244827,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,773.318403066943,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,495.198628244827,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,510.818403066943,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,510,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,494,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,1,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,1,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,494,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,3,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,494,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.12936911979103,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.999094990139,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,765.220000000037,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,789.229999999988,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,754.698628244827,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,773.318403066943,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,498.198628244827,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,499.818403066943,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,524,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,526,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,12,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,526,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,14,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,526,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.365742688708669,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,27.3737853275428,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,765.220000000037,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,789.229999999988,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,754.698628244827,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,773.318403066943,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,487.198628244827,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,513.818403066943,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,537,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,513,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,25,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,513,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,27,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,513,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.641113751152441,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,59.7421817109501,,,"azimuth angle from XIS3 optical axis (deg)" mjdrefi,i,h,51544,,,"integer part of the MJD-TT reference (2000.0 UT)" mjdreff,r,h,0.00074287037037037,,,"fractional part of the MJD-TT reference (64.184 s)" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,no,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,1000,,,"Event number printout frequency" chatter,i,h,5,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aecoordcalc
aecoordcalc version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aecoordcalc version 1.6
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = NO
CHATTER = 5
aecoordcalc: *** show parameter ***
INSTRUME XIS1
COORD SKY
X 765.220 (pixel)
Y 789.230 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae803005010xi1_0_3x3n069b_cl.evt+1'
EA1 186.349157865585 (deg)
EA2 71.814883272158 (deg)
EA3 155.821291080941 (deg)
REF_ALPHA 186.3492 (deg) / 12h25m23.8s
REF_DELTA 18.1851 (deg) / +18d11m06s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267335876.000 / 2008-06-21T03:57:55 in UTC
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits)
MJDREFI 51544
MJDREFF 0.00074287037037037
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits' (CALDB)
HXD_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/bcf/ae_hxd_teldef_20060810.fits' (CALDB)
XIS0_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
XIS1_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
XIS2_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi2_teldef_20080303.fits' (CALDB)
XIS3_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
Event... 1 (0)
J2000 ( 186.3502 , 18.1911 ) [deg] / ( 12h25m24.0s , +18d11m28s )
B1950 ( 185.7192 , 18.4679 ) [deg] / ( 12h22m52.6s , +18d28m05s )
Galactic ( 267.7118 , 79.2372 ) [deg]
Aberration ( 2.3708 , 6.3657 ) [arcsec], Ang.Distance = 6.7524
XRS SKY ( 765.2205 , 789.2271 ) [pixel]
XRS FOC ( 754.7005 , 773.3177 ) [pixel]
XRS DET ( 114.7005 , 133.3177 ) [pixel]
XRS THETA/PHI 0.2539 [arcmin] / -160.7546 [deg]
XRS PIXEL = 8
HXD SKY ( 765.2200 , 789.2300 ) [pixel]
HXD FOC ( 754.6986 , 773.3184 ) [pixel]
HXD DET ( 956.1956 , 773.3184 ) [pixel]
HXD THETA/PHI 3.2613 [arcmin] / -1.4705 [deg]
XIS0 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS0 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS0 DET ( 495.1986 , 505.8184 ) [pixel]
XIS0 ACT ( 529 , 505 ) [pixel]
XIS0 RAW ( 17 , 505 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 19 , 505 ) [pixel]
XIS0 THETA/PHI 1.5630 [arcmin] / -174.6960 [deg]
XIS1 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS1 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS1 DET ( 495.1986 , 510.8184 ) [pixel]
XIS1 ACT ( 510 , 494 ) [pixel]
XIS1 RAW ( 1 , 494 ) [pixel] at SEGMENT = 1
XIS1 PPU ( 3 , 494 ) [pixel]
XIS1 THETA/PHI 1.1294 [arcmin] / -143.9991 [deg]
XIS2 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS2 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS2 DET ( 498.1986 , 499.8184 ) [pixel]
XIS2 ACT ( 524 , 526 ) [pixel]
XIS2 RAW ( 12 , 526 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 14 , 526 ) [pixel]
XIS2 THETA/PHI 0.3657 [arcmin] / 27.3738 [deg]
XIS3 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS3 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS3 DET ( 487.1986 , 513.8184 ) [pixel]
XIS3 ACT ( 537 , 513 ) [pixel]
XIS3 RAW ( 25 , 513 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 27 , 513 ) [pixel]
XIS3 THETA/PHI 0.6411 [arcmin] / 59.7422 [deg]
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
QUIT: 1 |
<--- [ 1] aecoordcalc version 1.6
| OK: 0/1
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae803005010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(765,789,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi1_0_3x3n069b_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
105700 12876 92824 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
105700 12876 92824 0 0 0 0
in 86021. seconds
Fits light curve has 12876 counts for 0.1497 counts/sec
Thresholding removed more than half the bins
Try exposure=0.0 on the extract command in xselect
or lcthresh=0.0 if running extractor stand-alone
-> Creating source region file.Input sky coordinates: 1.8635020000000E+02, 1.8191100000000E+01 Output pixel coordinates: 7.6521840911334E+02, 7.8922539761698E+02-> Contents of aecoordcalc.par
instrume,s,a,"XIS3",,,"any of XRS/HXD/XIS0-3 to specify instrument" coord,s,a,"SKY",,,"any of ECS/J2000/B1950/GAL/SKY/FOC/DET/OPTIC to specify input coordinates" output,s,a,"FULL",,,"any of FULL/XRS/HXD/XIS0-3 for message output" attitude,f,a,"KEY",,,"attitude file, or KEY/USER" pointing,s,a,"KEY",,,"pointing type, KEY/USER" infile,f,a,"ae803005010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,186.349157865585,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,71.814883272158,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,155.821291080941,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"186.3492",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"18.1851",,,"DEC. of the reference pixel in deg or +NNdNNmNN.NNs" ref_roll,r,a,0,,,"roll angle of Y-axis from the north (deg)" aberration,b,h,yes,,,"correct aberration ?" t,s,a,"267335876.000000",,,"The Astro-E time (s) or date string 'yyyy-mm-ddThh:mm:ss.sss'" leapfile,f,h,"CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits",,,"location of leap-seconds file" xrs_teldef,f,h,"CALDB",,,"location of XRS teldef file" hxd_teldef,f,h,"CALDB",,,"location of HXD teldef file" xis0_teldef,f,h,"CALDB",,,"location of XIS0 teldef file" xis1_teldef,f,h,"CALDB",,,"location of XIS1 teldef file" xis2_teldef,f,h,"CALDB",,,"location of XIS2 teldef file" xis3_teldef,f,h,"CALDB",,,"location of XIS3 teldef file" alpha,s,a,"162.8",,,"R.A. in deg or NNhNNmNN.NNs" delta,s,a,"57.42",,,"DEC. in deg or +NNdNNmNN.NNs" alphaJ2000,r,a,186.350199496105,,,"R.A. (J2000) in deg" deltaJ2000,r,a,18.19110121765,,,"DEC. (J2000) in deg" alphaB1950,r,a,185.719236772781,,,"R.A. (B1950) in deg" deltaB1950,r,a,18.4679267493212,,,"DEC. (B1950) in deg" aber_alpha,r,a,0.000658557448929287,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.00176824898915484,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,6.75241181669585,,,"angular difference in arcsec by aberration" l,r,a,267.711809901518,,,"Galactic longitude (deg)" b,r,a,79.2372261515639,,,"Galactic latitude (deg)" x,r,a,765.22,,,"X value of SKY coorindates (pixel)" y,r,a,789.23,,,"Y value of SKY coorindates (pixel)" focx,r,a,,,,"FOCX value of FOC coorindates (pixel)" focy,r,a,,,,"FOCY value of FOC coorindates (pixel)" detx,r,a,,,,"DETX value of DET coorindates (pixel)" dety,r,a,,,,"DETY value of DET coorindates (pixel)" pixel,i,a,,0,31,"PIXEL number of XRS (0-31)" corner,i,a,,0,4,"corner 0:center, 1:left-low, 2:right-low, 3:right-up, 4:left-up" actx,i,a,,,,"ACTX value of ACT coorindates (pixel)" acty,i,a,,,,"ACTY value of ACT coorindates (pixel)" segment,i,a,0,0,3,"SEGMENT number of XIS (0-3)" rawx,i,a,0,,,"RAWX value of RAW coorindates (pixel)" rawy,i,a,0,,,"RAWY value of RAW coorindates (pixel)" ppux,i,a,0,,,"PPUX value of PPU coorindates (pixel)" ppuy,i,a,0,,,"PPUY value of PPU coorindates (pixel)" theta,r,a,0.0,,,"offset angle from optical axis (arcmin)" phi,r,a,0.0,,,"azimuth angle from XRT-S optical axis (deg)" xrs_skyx,r,a,765.22045549233,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,789.22712123315,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,754.700544835822,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,773.317733937229,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,114.700544835822,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,133.317733937229,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.25391512001578,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-160.754631729244,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,765.220001138926,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,789.229992802074,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,754.698633036968,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,773.318401393887,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,956.195633036969,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,773.318401393887,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.26128505783991,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-1.47053736626411,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,765.220000000037,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,789.229999999988,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,754.698628244827,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,773.318403066943,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,495.198628244827,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,505.818403066943,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,529,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,505,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,17,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,505,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,19,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,505,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.56303854931341,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-174.695983583516,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,765.220000000037,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,789.229999999988,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,754.698628244827,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,773.318403066943,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,495.198628244827,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,510.818403066943,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,510,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,494,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,1,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,1,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,494,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,3,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,494,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.12936911979103,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.999094990139,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,765.220000000037,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,789.229999999988,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,754.698628244827,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,773.318403066943,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,498.198628244827,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,499.818403066943,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,524,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,526,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,12,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,526,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,14,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,526,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.365742688708669,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,27.3737853275428,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,765.220000000037,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,789.229999999988,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,754.698628244827,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,773.318403066943,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,487.198628244827,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,513.818403066943,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,537,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,513,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,25,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,513,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,27,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,513,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.641113751152441,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,59.7421817109501,,,"azimuth angle from XIS3 optical axis (deg)" mjdrefi,i,h,51544,,,"integer part of the MJD-TT reference (2000.0 UT)" mjdreff,r,h,0.00074287037037037,,,"fractional part of the MJD-TT reference (64.184 s)" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,no,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,1000,,,"Event number printout frequency" chatter,i,h,5,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aecoordcalc
aecoordcalc version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aecoordcalc version 1.6
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = NO
CHATTER = 5
aecoordcalc: *** show parameter ***
INSTRUME XIS3
COORD SKY
X 765.220 (pixel)
Y 789.230 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae803005010xi3_0_3x3n066a_cl.evt+1'
EA1 186.349157865585 (deg)
EA2 71.814883272158 (deg)
EA3 155.821291080941 (deg)
REF_ALPHA 186.3492 (deg) / 12h25m23.8s
REF_DELTA 18.1851 (deg) / +18d11m06s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267335876.000 / 2008-06-21T03:57:55 in UTC
LEAPFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' (CALDB;/aps/tools/headas/current/i686-pc-linux-gnu-libc2.3.4/refdata/leapsec.fits)
MJDREFI 51544
MJDREFF 0.00074287037037037
XRS_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits' (CALDB)
HXD_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/bcf/ae_hxd_teldef_20060810.fits' (CALDB)
XIS0_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
XIS1_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
XIS2_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi2_teldef_20080303.fits' (CALDB)
XIS3_TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
Event... 1 (0)
J2000 ( 186.3502 , 18.1911 ) [deg] / ( 12h25m24.0s , +18d11m28s )
B1950 ( 185.7192 , 18.4679 ) [deg] / ( 12h22m52.6s , +18d28m05s )
Galactic ( 267.7118 , 79.2372 ) [deg]
Aberration ( 2.3708 , 6.3657 ) [arcsec], Ang.Distance = 6.7524
XRS SKY ( 765.2205 , 789.2271 ) [pixel]
XRS FOC ( 754.7005 , 773.3177 ) [pixel]
XRS DET ( 114.7005 , 133.3177 ) [pixel]
XRS THETA/PHI 0.2539 [arcmin] / -160.7546 [deg]
XRS PIXEL = 8
HXD SKY ( 765.2200 , 789.2300 ) [pixel]
HXD FOC ( 754.6986 , 773.3184 ) [pixel]
HXD DET ( 956.1956 , 773.3184 ) [pixel]
HXD THETA/PHI 3.2613 [arcmin] / -1.4705 [deg]
XIS0 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS0 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS0 DET ( 495.1986 , 505.8184 ) [pixel]
XIS0 ACT ( 529 , 505 ) [pixel]
XIS0 RAW ( 17 , 505 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 19 , 505 ) [pixel]
XIS0 THETA/PHI 1.5630 [arcmin] / -174.6960 [deg]
XIS1 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS1 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS1 DET ( 495.1986 , 510.8184 ) [pixel]
XIS1 ACT ( 510 , 494 ) [pixel]
XIS1 RAW ( 1 , 494 ) [pixel] at SEGMENT = 1
XIS1 PPU ( 3 , 494 ) [pixel]
XIS1 THETA/PHI 1.1294 [arcmin] / -143.9991 [deg]
XIS2 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS2 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS2 DET ( 498.1986 , 499.8184 ) [pixel]
XIS2 ACT ( 524 , 526 ) [pixel]
XIS2 RAW ( 12 , 526 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 14 , 526 ) [pixel]
XIS2 THETA/PHI 0.3657 [arcmin] / 27.3738 [deg]
XIS3 SKY ( 765.2200 , 789.2300 ) [pixel]
XIS3 FOC ( 754.6986 , 773.3184 ) [pixel]
XIS3 DET ( 487.1986 , 513.8184 ) [pixel]
XIS3 ACT ( 537 , 513 ) [pixel]
XIS3 RAW ( 25 , 513 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 27 , 513 ) [pixel]
XIS3 THETA/PHI 0.6411 [arcmin] / 59.7422 [deg]
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
QUIT: 1 |
<--- [ 1] aecoordcalc version 1.6
| OK: 0/1
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae803005010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(765,789,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae803005010xi3_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
22958 3763 19195 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
22958 3763 19195 0 0 0 0
in 86021. seconds
Fits light curve has 3763 counts for 4.3745E-02 counts/sec
Thresholding removed more than half the bins
Try exposure=0.0 on the extract command in xselect
or lcthresh=0.0 if running extractor stand-alone
-> Ploting light curves for XIS.
lcurve 1.0 (xronos5.21)
Series 1 file 1:ae803005010xi0_0_3x3n066a_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ NGC 4382 Start Time (d) .... 14638 06:41:33.113
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14640 10:23:24.184
No. of Rows ....... 490 Bin Time (s) ...... 187.3
Right Ascension ... 186.3502 Internal time sys.. Converted to TJD
Declination ....... 18.1911 Experiment ........ SUZAKU XIS0
Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - Yes
Selected Columns: 1- Time; 2- Y-axis; 3- Y-error; 4- Fractional exposure;
File contains binned data.
Series 2 file 1:ae803005010xi1_0_3x3n069b_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ NGC 4382 Start Time (d) .... 14638 06:41:33.113
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14640 10:23:24.184
No. of Rows ....... 490 Bin Time (s) ...... 187.3
Right Ascension ... 186.3502 Internal time sys.. Converted to TJD
Declination ....... 18.1911 Experiment ........ SUZAKU XIS1
Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - Yes
Selected Columns: 1- Time; 2- Y-axis; 3- Y-error; 4- Fractional exposure;
File contains binned data.
Series 3 file 1:ae803005010xi3_0_3x3n066a_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ NGC 4382 Start Time (d) .... 14638 06:41:33.113
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14640 10:23:24.184
No. of Rows ....... 490 Bin Time (s) ...... 187.3
Right Ascension ... 186.3502 Internal time sys.. Converted to TJD
Declination ....... 18.1911 Experiment ........ SUZAKU XIS3
Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - Yes
Selected Columns: 1- Time; 2- Y-axis; 3- Y-error; 4- Fractional exposure;
File contains binned data.
Expected Start ... 14638.27885547883 (days) 6:41:33:113 (h:m:s:ms)
Expected Stop .... 14640.43291879629 (days) 10:23:24:184 (h:m:s:ms)
Minimum Newbin Time 187.34000 (s)
for Maximum Newbin No.. 994
Default Newbin Time is: 363.92466 (s) (to have 1 Intv. of 512 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 363.92466 (s)
Maximum Newbin No. 512
Default Newbins per Interval are: 512
(giving 1 Interval of 512 Newbins)
Type INDEF to accept the default value
Maximum of 1 Intvs. with 512 Newbins of 363.925 (s)
Two plotting styles available:
Colour-Colour [1] ; Intensity vs Time (or Phase)[ # of series (3 or 4)];
512 analysis results per interval
1% completed
2% completed
3% completed
4% completed
5% completed
6% completed
7% completed
8% completed
9% completed
10% completed
11% completed
12% completed
13% completed
14% completed
15% completed
16% completed
17% completed
18% completed
19% completed
20% completed
21% completed
22% completed
23% completed
24% completed
25% completed
26% completed
27% completed
28% completed
29% completed
30% completed
31% completed
32% completed
33% completed
34% completed
35% completed
36% completed
37% completed
38% completed
39% completed
40% completed
41% completed
42% completed
43% completed
44% completed
45% completed
46% completed
47% completed
48% completed
49% completed
50% completed
51% completed
52% completed
53% completed
54% completed
55% completed
56% completed
57% completed
58% completed
59% completed
60% completed
61% completed
62% completed
63% completed
64% completed
65% completed
66% completed
67% completed
68% completed
69% completed
70% completed
71% completed
72% completed
73% completed
74% completed
75% completed
76% completed
77% completed
78% completed
79% completed
80% completed
81% completed
82% completed
83% completed
84% completed
85% completed
86% completed
87% completed
88% completed
89% completed
90% completed
91% completed
92% completed
93% completed
94% completed
95% completed
96% completed
97% completed
98% completed
99% completed
100% completed
Intv 1 Start 14638 6:44:35
Ser.1 Avg 0.4343E-01 Chisq 175.2 Var 0.2337E-03 Newbs. 268
Min 0.000 Max 0.1294 expVar 0.2408E-03 Bins 490
Ser.2 Avg 0.1543 Chisq 479.6 Var 0.2354E-02 Newbs. 268
Min 0.5338E-01 Max 0.3387 expVar 0.1025E-02 Bins 490
Ser.3 Avg 0.4527E-01 Chisq 75.84 Var 0.3938E-03 Newbs. 268
Min 0.000 Max 0.2386 expVar 0.4922E-03 Bins 490
-> Creating light curves for BST.read_iomode,s,h,"readonly",,,"HXD bst fits input I/O mode : always readonly" input_name,fr,a,"ae803005010hxd_1_bst01_uf.evt",,,"HXD bst fits file name?" outroot,s,a,"ae803005010hxd_1_bst01",,,"Root name for output file?" tpu_board,i,a,"-1",,,"TPU board (-1=all, 0,1,2,3)?" th_mode,i,a,1,,,"PH or TH?(0:PH, 1:TH)" origin,s,h,"ISAS/JAXA",,,"ORIGIN" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkbstlc
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDbstFitsRead version 2.0.0
HXDmkbstlc version 2.0.0
-- Functions by HXD team --
hxdbstFitsUtil version 2.0.9
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdbstFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDbstFitsRead version 2.0.0
[ 2] HXDmkbstlc 0.1.5
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
atMissionTime: reading leapsec file 'leapsec.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 513
QUIT: 1 |
<--- [ 1] HXDbstFitsRead version 2.0.0
| OK: 512/513
[ 2] HXDmkbstlc 0.1.5
| OK: 512/512
GET: 512
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 45/5000
buffer size : 120000
buffer used : 6560
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdbsttime_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:input_name 256 29 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:BST:format_version 4 4 1 0 SINGLE
HXD:BST:FRZD_TM 32 32 1 512 SINGLE
HXD:BST:FRTM_CT 16 16 1 0 SINGLE
HXD:BST:TM_MODE 16 16 1 512 SINGLE
HXD:BST:PACKET_AETIME 8 8 512 512 SINGLE
HXD:BST:PACKET_S_TIME 8 8 512 1024 SINGLE
HXD:BST:PACKET_SEC_HEADER 4 4 512 0 SINGLE
HXD:BST:IBLOCK 4 4 512 1024 SINGLE
HXD:BST:ERR_COD 4 4 512 1024 SINGLE
HXD:BST:SOFT_FLG 4 4 512 1024 SINGLE
HXD:BST:CURRENT_TPU 4 4 512 1024 SINGLE
HXD:BST:REST_REQ 4 4 512 1024 SINGLE
HXD:BST:DATA_SIZE 4 4 512 1024 SINGLE
HXD:BST:READ_CNT 4 4 512 1024 SINGLE
HXD:BST:DE_BOARD 4 4 512 1024 SINGLE
HXD:BST:BOARD 4 4 512 1024 SINGLE
HXD:BST:DATA_SEQ 4 4 512 1024 SINGLE
HXD:BST:TIME 4 4 512 512 SINGLE
HXD:BST:TH0 128 128 512 1024 SINGLE
HXD:BST:TH1 128 128 512 1024 SINGLE
HXD:BST:TH2 128 128 512 1024 SINGLE
HXD:BST:TH3 128 128 512 1024 SINGLE
HXD:BST:PH 216 216 512 1024 SINGLE
HXD:BST:PI 216 216 512 0 SINGLE
HXD:BST:OVER_FLOW 4 4 512 1024 SINGLE
HXD:BST:PSEUDO 4 4 512 512 SINGLE
HXD:BST:T_ANT 20 20 512 512 SINGLE
HXD:BST:UD 4 4 512 512 SINGLE
HXD:BST:DEAD_TIME 4 4 512 512 SINGLE
HXD:BST:SUM_LD 4 4 512 512 SINGLE
HXD:BST:W_ANT 20 20 512 512 SINGLE
HXD:BST:QUARITY 4 4 512 0 SINGLE
HXDbstFitsRead:IROW 4 0 0 0 SINGLE
HXDbstFitsRead:FILE_P 8 4 1 1 SINGLE
HXDbstFitsRead:FILE_NAME 1999 30 1 0 SINGLE
HXDbstFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDbstFitsRead:IOMODE 4 4 1 0 SINGLE
HXDbstFitsRead:NROW 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 512 0 SINGLE
ASTE:FFF_ORIGIN 256 10 1 20 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDbstFitsRead 0.012 0.001 0.013 6.70
[ 2] HXDmkbstlc 0.103 0.060 0.163 84.02
(others) 0.007 0.011 0.018 9.28
--------------------------------------------------------------------------
TOTAL 0.122 0.072 0.194 100.00
-> hxdmkbstlc ran successfully.read_iomode,s,h,"readonly",,,"HXD bst fits input I/O mode : always readonly" input_name,fr,a,"ae803005010hxd_2_bst01_uf.evt",,,"HXD bst fits file name?" outroot,s,a,"ae803005010hxd_2_bst01",,,"Root name for output file?" tpu_board,i,a,"-1",,,"TPU board (-1=all, 0,1,2,3)?" th_mode,i,a,1,,,"PH or TH?(0:PH, 1:TH)" origin,s,h,"ISAS/JAXA",,,"ORIGIN" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkbstlc
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDbstFitsRead version 2.0.0
HXDmkbstlc version 2.0.0
-- Functions by HXD team --
hxdbstFitsUtil version 2.0.9
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdbstFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDbstFitsRead version 2.0.0
[ 2] HXDmkbstlc 0.1.5
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
atMissionTime: reading leapsec file 'leapsec.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 513
QUIT: 1 |
<--- [ 1] HXDbstFitsRead version 2.0.0
| OK: 512/513
[ 2] HXDmkbstlc 0.1.5
| OK: 512/512
GET: 512
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 45/5000
buffer size : 120000
buffer used : 6560
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdbsttime_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:input_name 256 29 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:BST:format_version 4 4 1 0 SINGLE
HXD:BST:FRZD_TM 32 32 1 512 SINGLE
HXD:BST:FRTM_CT 16 16 1 0 SINGLE
HXD:BST:TM_MODE 16 16 1 512 SINGLE
HXD:BST:PACKET_AETIME 8 8 512 512 SINGLE
HXD:BST:PACKET_S_TIME 8 8 512 1024 SINGLE
HXD:BST:PACKET_SEC_HEADER 4 4 512 0 SINGLE
HXD:BST:IBLOCK 4 4 512 1024 SINGLE
HXD:BST:ERR_COD 4 4 512 1024 SINGLE
HXD:BST:SOFT_FLG 4 4 512 1024 SINGLE
HXD:BST:CURRENT_TPU 4 4 512 1024 SINGLE
HXD:BST:REST_REQ 4 4 512 1024 SINGLE
HXD:BST:DATA_SIZE 4 4 512 1024 SINGLE
HXD:BST:READ_CNT 4 4 512 1024 SINGLE
HXD:BST:DE_BOARD 4 4 512 1024 SINGLE
HXD:BST:BOARD 4 4 512 1024 SINGLE
HXD:BST:DATA_SEQ 4 4 512 1024 SINGLE
HXD:BST:TIME 4 4 512 512 SINGLE
HXD:BST:TH0 128 128 512 1024 SINGLE
HXD:BST:TH1 128 128 512 1024 SINGLE
HXD:BST:TH2 128 128 512 1024 SINGLE
HXD:BST:TH3 128 128 512 1024 SINGLE
HXD:BST:PH 216 216 512 1024 SINGLE
HXD:BST:PI 216 216 512 0 SINGLE
HXD:BST:OVER_FLOW 4 4 512 1024 SINGLE
HXD:BST:PSEUDO 4 4 512 512 SINGLE
HXD:BST:T_ANT 20 20 512 512 SINGLE
HXD:BST:UD 4 4 512 512 SINGLE
HXD:BST:DEAD_TIME 4 4 512 512 SINGLE
HXD:BST:SUM_LD 4 4 512 512 SINGLE
HXD:BST:W_ANT 20 20 512 512 SINGLE
HXD:BST:QUARITY 4 4 512 0 SINGLE
HXDbstFitsRead:IROW 4 0 0 0 SINGLE
HXDbstFitsRead:FILE_P 8 4 1 1 SINGLE
HXDbstFitsRead:FILE_NAME 1999 30 1 0 SINGLE
HXDbstFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDbstFitsRead:IOMODE 4 4 1 0 SINGLE
HXDbstFitsRead:NROW 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 512 0 SINGLE
ASTE:FFF_ORIGIN 256 10 1 20 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDbstFitsRead 0.012 0.004 0.016 8.16
[ 2] HXDmkbstlc 0.104 0.058 0.162 82.65
(others) 0.008 0.010 0.018 9.18
--------------------------------------------------------------------------
TOTAL 0.124 0.072 0.196 100.00
-> hxdmkbstlc ran successfully.read_iomode,s,h,"readonly",,,"HXD bst fits input I/O mode : always readonly" input_name,fr,a,"ae803005010hxd_2_bst02_uf.evt",,,"HXD bst fits file name?" outroot,s,a,"ae803005010hxd_2_bst02",,,"Root name for output file?" tpu_board,i,a,"-1",,,"TPU board (-1=all, 0,1,2,3)?" th_mode,i,a,1,,,"PH or TH?(0:PH, 1:TH)" origin,s,h,"ISAS/JAXA",,,"ORIGIN" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkbstlc
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDbstFitsRead version 2.0.0
HXDmkbstlc version 2.0.0
-- Functions by HXD team --
hxdbstFitsUtil version 2.0.9
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdbstFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDbstFitsRead version 2.0.0
[ 2] HXDmkbstlc 0.1.5
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
atMissionTime: reading leapsec file 'leapsec.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 513
QUIT: 1 |
<--- [ 1] HXDbstFitsRead version 2.0.0
| OK: 512/513
[ 2] HXDmkbstlc 0.1.5
| OK: 512/512
GET: 512
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 45/5000
buffer size : 120000
buffer used : 6560
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:ftools:hxdbsttime_yn 4 4 1 0 SINGLE
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:input_name 256 29 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:BST:format_version 4 4 1 0 SINGLE
HXD:BST:FRZD_TM 32 32 1 512 SINGLE
HXD:BST:FRTM_CT 16 16 1 0 SINGLE
HXD:BST:TM_MODE 16 16 1 512 SINGLE
HXD:BST:PACKET_AETIME 8 8 512 512 SINGLE
HXD:BST:PACKET_S_TIME 8 8 512 1024 SINGLE
HXD:BST:PACKET_SEC_HEADER 4 4 512 0 SINGLE
HXD:BST:IBLOCK 4 4 512 1024 SINGLE
HXD:BST:ERR_COD 4 4 512 1024 SINGLE
HXD:BST:SOFT_FLG 4 4 512 1024 SINGLE
HXD:BST:CURRENT_TPU 4 4 512 1024 SINGLE
HXD:BST:REST_REQ 4 4 512 1024 SINGLE
HXD:BST:DATA_SIZE 4 4 512 1024 SINGLE
HXD:BST:READ_CNT 4 4 512 1024 SINGLE
HXD:BST:DE_BOARD 4 4 512 1024 SINGLE
HXD:BST:BOARD 4 4 512 1024 SINGLE
HXD:BST:DATA_SEQ 4 4 512 1024 SINGLE
HXD:BST:TIME 4 4 512 512 SINGLE
HXD:BST:TH0 128 128 512 1024 SINGLE
HXD:BST:TH1 128 128 512 1024 SINGLE
HXD:BST:TH2 128 128 512 1024 SINGLE
HXD:BST:TH3 128 128 512 1024 SINGLE
HXD:BST:PH 216 216 512 1024 SINGLE
HXD:BST:PI 216 216 512 0 SINGLE
HXD:BST:OVER_FLOW 4 4 512 1024 SINGLE
HXD:BST:PSEUDO 4 4 512 512 SINGLE
HXD:BST:T_ANT 20 20 512 512 SINGLE
HXD:BST:UD 4 4 512 512 SINGLE
HXD:BST:DEAD_TIME 4 4 512 512 SINGLE
HXD:BST:SUM_LD 4 4 512 512 SINGLE
HXD:BST:W_ANT 20 20 512 512 SINGLE
HXD:BST:QUARITY 4 4 512 0 SINGLE
HXDbstFitsRead:IROW 4 0 0 0 SINGLE
HXDbstFitsRead:FILE_P 8 4 1 1 SINGLE
HXDbstFitsRead:FILE_NAME 1999 30 1 0 SINGLE
HXDbstFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDbstFitsRead:IOMODE 4 4 1 0 SINGLE
HXDbstFitsRead:NROW 4 4 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 512 0 SINGLE
ASTE:FFF_ORIGIN 256 10 1 20 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDbstFitsRead 0.013 0.000 0.013 6.74
[ 2] HXDmkbstlc 0.106 0.057 0.163 84.46
(others) 0.009 0.008 0.017 8.81
--------------------------------------------------------------------------
TOTAL 0.128 0.065 0.193 100.00
-> hxdmkbstlc ran successfully.