The following information is also available:
infile,f,a,"ae802022010.att",,,"input attitude file name" outfile,f,a,"ae802022010.att.tmp",,,"output attitude file name" orbit,f,a,"ae802022010.orb",,,"orbit file name" hkfile,f,a,"ae802022010.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 'ae802022010.att'
OUTFILE 'ae802022010.att.tmp'
ORBIT 'ae802022010.orb'
HKFILE 'ae802022010.hk'
HK_TIME_MARGIN 60.0 (s)
CLOBBER YES
aste_orbit: reading 'ae802022010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=17283, nkp=15841, tstart=249609601.0, tstop=250560001.0
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae802022010.hk'
aste_gethk-2.5: t=250285827.467 < TSTART=250318873.057 for 'HK_XIS_RAD6_T1_CAL' in 'ae802022010.hk'
aeattcor: INFO: TSTART=250318873.1 for ae802022010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae802022010.hk'
aste_gethk-2.5: found 'HK_XIS_RAD8_T1_CAL' at hdu=3, col=138 in 'ae802022010.hk'
aste_gethk-2.5: t=250478183.067 > TSTOP=250478183.036 for 'HK_XIS_RAD6_T1_CAL'
aeattcor: INFO: TSTOP=250478183.0 for ae802022010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae802022010.hk'
NUM_CORR = 219124 / number of corrected Euler angles
AVG_LAMB = 188.6152 / average ecliptic longitude (deg)
AVG_BETA = +7.0367 / average ecliptic latitude (deg)
AVG_XOFF = -11.3082 / average DETX offset (pixel)
AVG_YOFF = 5.5277 / average DETY offset (pixel)
SGM_XOFF = 4.4397 / 1 sigma DETX offset standard deviation (pixel)
SGM_YOFF = 7.7391 / 1 sigma DETY offset standard deviation (pixel)
Event... 1 (0)
aeattcor: INFO: created 'ae802022010.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 4.432 1.207 5.639 99.65
(others) 0.011 0.009 0.020 0.35
--------------------------------------------------------------------------
TOTAL 4.443 1.216 5.659 100.00
-> aeattcor successful for ae802022010.att.attitude,f,a,"ae802022010.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 'ae802022010.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=250318868.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=250478185.0
aste_aspect version 1.8
aspecting attitude: ae802022010.att
TELESCOP='SUZAKU', OBJECT='NGC 4636 NORTH', (RA,DEC)=(190.6828, 3.0503)
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: 250285827.466848 250488945.440885 203117.974037
START in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-06 19:50:26 (54440.82669522)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-09 04:15:44 (54443.17759770)
aspecting START STOP dT: 250318868.000000 250478185.000000 159317.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-07 05:01:07 (54441.20910880)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-09 01:16:24 (54443.05305556)
averaging attitude in 60 sec sampling, 2656 points
Sample Time : 60.0 s Number of Accept / Sample : 2656 / 2656
TIME START STOP TELAPSE (s) : 250318868.0 250478185.0 159317.0
START DATE TIME in UTC (MJD): 2007-12-07 05:01:07 (54441.20910880)
STOP DATE TIME in UTC (MJD): 2007-12-09 01:16:24 (54443.05305556)
Mean [MEDIAN] Euler angles : 190.683240 86.944533 338.003347
RA DEC SUN ANGLE
Mean Sun position (deg) : 254.283798 -22.659308
Mean aberration (arcsec) : -8.309518 1.042090
Mean satellite X-axis (deg) : 108.200050 -67.802583 86.136444
Mean satellite Y-axis (deg) : 279.449735 -21.963754 23.264614
Mean satellite Z-axis (deg) : 190.683240 3.055467 67.095990
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 190.683240 3.055467 111.996653
Average 190.683650 3.055831 111.996580
Minimum 190.636947 3.049662 111.952720
Maximum 190.691634 3.176960 112.000015 7.799381
Sigma (RMS) 0.002772 0.004192 0.001846 0.303196
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '802022010' / 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 4636 NORTH' / name of observed object
RA_OBJ = 190.6828 / planned target R.A.(deg)
DEC_OBJ = 3.0503 / planned target DEC.(deg)
RA_NOM = 190.6832 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 3.0555 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 111.9967 / nominal position angle from north to DETY(deg)
MEAN_EA1= 190.683240454954 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 86.944532709041 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 338.003346695165 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae802022010.att' / name of the satellite attitude file
DATE-OBS= '2007-12-07T05:01:07'/ start date of observations (UT)
DATE-END= '2007-12-09T01:16:24'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 190.6832 / average optical axis location R.A.(deg)
DEC_PNT = 3.0555 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 190.6614 / average optical axis location R.A.(deg)
DEC_PNT = 3.0014 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6905 / average optical axis location R.A.(deg)
DEC_PNT = 3.0762 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6785 / average optical axis location R.A.(deg)
DEC_PNT = 3.0695 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6836 / average optical axis location R.A.(deg)
DEC_PNT = 3.0452 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6896 / average optical axis location R.A.(deg)
DEC_PNT = 3.0428 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae802022010hxd_1_wam.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 2] Processing 'ae802022010hxd_1_wel.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 3] Processing 'ae802022010hxd_2_bst01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 4] Processing 'ae802022010hxd_2_bst02.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 5] Processing 'ae802022010hxd_2_bst03.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 6] Processing 'ae802022010hxd_2_wam.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 7] Processing 'ae802022010hxd_2_wel.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 8] Processing 'ae802022010xi1_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'
[ 9] Processing 'ae802022010xi1_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'
[10] Processing 'ae802022010xi1_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'
[11] Processing 'ae802022010xi1_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'
[12] Processing 'ae802022010xi1_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'
[13] Processing 'ae802022010xi1_2_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
[14] Processing 'ae802022010xi1_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'
[15] Processing 'ae802022010xi2_1_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
+2: TELESCOP='SUZAKU', INSTRUME='XIS2'
[16] Processing 'ae802022010xi2_2_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
+2: TELESCOP='SUZAKU', INSTRUME='XIS2'
[17] Processing 'ae802022010xi3_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'
[18] Processing 'ae802022010xi3_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'
[19] Processing 'ae802022010xi3_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'
[20] Processing 'ae802022010xi3_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'
[21] Processing 'ae802022010xi3_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'
[22] Processing 'ae802022010xi3_2_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
[23] Processing 'ae802022010xi3_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'
[24] Processing 'ae802022010.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=''
[25] Processing 'ae802022010hxd_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'
[26] Processing 'ae802022010xi0_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'
[27] Processing 'ae802022010xi1_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'
[28] Processing 'ae802022010xi2_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'
[29] Processing 'ae802022010xi3_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'
[30] Processing 'ae802022010xrs_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'
[31] Processing 'ae802022010xi1_0_069.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
[32] Processing 'ae802022010xi2_0_108.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
[33] Processing 'ae802022010xi3_0_066.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
[34] Processing 'ae802022010.orb'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
+2: TELESCOP='SUZAKU', INSTRUME=''
[35] Processing 'ae802022010.att'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
[36] Processing 'ae802022010.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: 37
QUIT: 1 |
<--- [ 1] aeaspect version 2.3
| OK: 36/37
GET: 36
*** 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 3.886 9.684 13.570 99.69
(others) 0.034 0.008 0.042 0.31
--------------------------------------------------------------------------
TOTAL 3.920 9.692 13.612 100.00
-> Nominal spacecraft Euler angles: Phi=190.683240454954 Theta=86.944532709041 Psi=338.003346695165outfile,f,a,"ae802022010.ehk",,,"output .ehk file" orbit,f,a,"ae802022010.orb",,,"input orbit file" attitude,f,a,"ae802022010.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,250285897.466848,,,"start time" stop_time,r,a,250478245.427111,,,"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 'ae802022010.ehk'
ORBIT 'ae802022010.orb'
ATTITUDE 'ae802022010.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 250285897.466848
TSTOP 250478245.427111
TIME_COL_NAME ''
STEP_SEC 1.0
MARGIN_SEC 60.0
CLOBBER YES
aste_orbit: reading 'ae802022010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=17283, nkp=15841, tstart=249609601.0, tstop=250560001.0
aemkehk: generate TIME from 250285837.000 to 250478306.000,
in 1.0 sec step, 192470 rows
aemkehk: creating ehk file 'ae802022010.ehk'
Event... 1 (0)
Event... 100001 (100000)
aemkehk: 'ae802022010.ehk' created
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 192471
QUIT: 1 |
<--- [ 1] AEmkEHKtimeGen version 2.4
| OK: 192470/192471
[ 2] AEmkEHKfitsWrite version 2.4
| OK: 192470/192470
GET: 192470
*** 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 192470 192470 SINGLE
ASTE:EHK:EULER1 8 8 192470 0 SINGLE
ASTE:EHK:EULER2 8 8 192470 0 SINGLE
ASTE:EHK:EULER3 8 8 192470 0 SINGLE
ASTE:EHK:FOC_RA 8 8 192470 0 SINGLE
ASTE:EHK:FOC_DEC 8 8 192470 0 SINGLE
ASTE:EHK:FOC_ROLL 8 8 192470 0 SINGLE
ASTE:EHK:DLT_RA 8 8 192470 0 SINGLE
ASTE:EHK:DLT_DEC 8 8 192470 0 SINGLE
ASTE:EHK:DLT_ROLL 8 8 192470 0 SINGLE
ASTE:EHK:ANG_DIST 8 8 192470 0 SINGLE
ASTE:EHK:SAT_ALT 8 8 192470 0 SINGLE
ASTE:EHK:SAT_LON 8 8 192470 0 SINGLE
ASTE:EHK:SAT_LAT 8 8 192470 0 SINGLE
ASTE:EHK:ELV 8 8 192470 0 SINGLE
ASTE:EHK:DYE_ELV 8 8 192470 0 SINGLE
ASTE:EHK:NTE_ELV 8 8 192470 0 SINGLE
ASTE:EHK:SUN_ALT 8 8 192470 0 SINGLE
ASTE:EHK:T_DY_NT 8 8 192470 0 SINGLE
ASTE:EHK:TN_DY_NT 8 8 192470 0 SINGLE
ASTE:EHK:COR 8 8 192470 0 SINGLE
ASTE:EHK:COR2 8 8 192470 0 SINGLE
ASTE:EHK:SAA 4 4 192470 0 SINGLE
ASTE:EHK:T_SAA 8 8 192470 0 SINGLE
ASTE:EHK:TN_SAA 8 8 192470 0 SINGLE
ASTE:EHK:SAA_HXD 4 4 192470 0 SINGLE
ASTE:EHK:T_SAA_HXD 8 8 192470 0 SINGLE
ASTE:EHK:TN_SAA_HXD 8 8 192470 0 SINGLE
ASTE:EHK:ZGMAG_ANG 8 8 192470 0 SINGLE
ASTE:EHK:ZGMAG_PHI 8 8 192470 0 SINGLE
ASTE:EHK:ZE_ANG 8 8 192470 0 SINGLE
ASTE:EHK:ZE_PHI 8 8 192470 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] AEmkEHKtimeGen 0.316 0.150 0.466 2.37
[ 2] AEmkEHKfitsWrite 18.321 0.840 19.161 97.49
(others) 0.020 0.008 0.028 0.14
--------------------------------------------------------------------------
TOTAL 18.657 0.998 19.655 100.00
-> aemkehk created ae802022010.ehk.attitude,f,a,"ae802022010.att",,,"input attitude file" filelist,f,a,"ae802022010.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 'ae802022010.att'
MOD_FILE_LIST 'ae802022010.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=250318868.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=250478185.0
aste_aspect version 1.8
aspecting attitude: ae802022010.att
TELESCOP='SUZAKU', OBJECT='NGC 4636 NORTH', (RA,DEC)=(190.6828, 3.0503)
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: 250285827.466848 250488945.440885 203117.974037
START in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-06 19:50:26 (54440.82669522)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-09 04:15:44 (54443.17759770)
aspecting START STOP dT: 250318868.000000 250478185.000000 159317.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-07 05:01:07 (54441.20910880)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-09 01:16:24 (54443.05305556)
averaging attitude in 60 sec sampling, 2656 points
Sample Time : 60.0 s Number of Accept / Sample : 2656 / 2656
TIME START STOP TELAPSE (s) : 250318868.0 250478185.0 159317.0
START DATE TIME in UTC (MJD): 2007-12-07 05:01:07 (54441.20910880)
STOP DATE TIME in UTC (MJD): 2007-12-09 01:16:24 (54443.05305556)
Mean [MEDIAN] Euler angles : 190.683240 86.944533 338.003347
RA DEC SUN ANGLE
Mean Sun position (deg) : 254.283798 -22.659308
Mean aberration (arcsec) : -8.309518 1.042090
Mean satellite X-axis (deg) : 108.200050 -67.802583 86.136444
Mean satellite Y-axis (deg) : 279.449735 -21.963754 23.264614
Mean satellite Z-axis (deg) : 190.683240 3.055467 67.095990
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 190.683240 3.055467 111.996653
Average 190.683650 3.055831 111.996580
Minimum 190.636947 3.049662 111.952720
Maximum 190.691634 3.176960 112.000015 7.799381
Sigma (RMS) 0.002772 0.004192 0.001846 0.303196
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '802022010' / 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 4636 NORTH' / name of observed object
RA_OBJ = 190.6828 / planned target R.A.(deg)
DEC_OBJ = 3.0503 / planned target DEC.(deg)
RA_NOM = 190.6832 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 3.0555 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 111.9967 / nominal position angle from north to DETY(deg)
MEAN_EA1= 190.683240454954 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 86.944532709041 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 338.003346695165 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae802022010.att' / name of the satellite attitude file
DATE-OBS= '2007-12-07T05:01:07'/ start date of observations (UT)
DATE-END= '2007-12-09T01:16:24'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 190.6832 / average optical axis location R.A.(deg)
DEC_PNT = 3.0555 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 190.6614 / average optical axis location R.A.(deg)
DEC_PNT = 3.0014 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6905 / average optical axis location R.A.(deg)
DEC_PNT = 3.0762 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6785 / average optical axis location R.A.(deg)
DEC_PNT = 3.0695 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6836 / average optical axis location R.A.(deg)
DEC_PNT = 3.0452 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6896 / average optical axis location R.A.(deg)
DEC_PNT = 3.0428 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae802022010.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 0.270 0.078 0.348 89.00
(others) 0.031 0.012 0.043 11.00
--------------------------------------------------------------------------
TOTAL 0.301 0.090 0.391 100.00
-> Fixing TNULL values.Reading ASCII configuration file /aps/subsys/proc/ae/lists/makefilter.config-> newmakefilter created ae802022010.mkf.
Time column is TIME ORDERED-> Contents of aeaspect.par
attitude,f,a,"ae802022010.att",,,"input attitude file" filelist,f,a,"ae802022010.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 'ae802022010.att'
MOD_FILE_LIST 'ae802022010.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=250318868.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=250478185.0
aste_aspect version 1.8
aspecting attitude: ae802022010.att
TELESCOP='SUZAKU', OBJECT='NGC 4636 NORTH', (RA,DEC)=(190.6828, 3.0503)
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: 250285827.466848 250488945.440885 203117.974037
START in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-06 19:50:26 (54440.82669522)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-09 04:15:44 (54443.17759770)
aspecting START STOP dT: 250318868.000000 250478185.000000 159317.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-07 05:01:07 (54441.20910880)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2007-12-09 01:16:24 (54443.05305556)
averaging attitude in 60 sec sampling, 2656 points
Sample Time : 60.0 s Number of Accept / Sample : 2656 / 2656
TIME START STOP TELAPSE (s) : 250318868.0 250478185.0 159317.0
START DATE TIME in UTC (MJD): 2007-12-07 05:01:07 (54441.20910880)
STOP DATE TIME in UTC (MJD): 2007-12-09 01:16:24 (54443.05305556)
Mean [MEDIAN] Euler angles : 190.683240 86.944533 338.003347
RA DEC SUN ANGLE
Mean Sun position (deg) : 254.283798 -22.659308
Mean aberration (arcsec) : -8.309518 1.042090
Mean satellite X-axis (deg) : 108.200050 -67.802583 86.136444
Mean satellite Y-axis (deg) : 279.449735 -21.963754 23.264614
Mean satellite Z-axis (deg) : 190.683240 3.055467 67.095990
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 190.683240 3.055467 111.996653
Average 190.683650 3.055831 111.996580
Minimum 190.636947 3.049662 111.952720
Maximum 190.691634 3.176960 112.000015 7.799381
Sigma (RMS) 0.002772 0.004192 0.001846 0.303196
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '802022010' / 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 4636 NORTH' / name of observed object
RA_OBJ = 190.6828 / planned target R.A.(deg)
DEC_OBJ = 3.0503 / planned target DEC.(deg)
RA_NOM = 190.6832 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 3.0555 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 111.9967 / nominal position angle from north to DETY(deg)
MEAN_EA1= 190.683240454954 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 86.944532709041 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 338.003346695165 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae802022010.att' / name of the satellite attitude file
DATE-OBS= '2007-12-07T05:01:07'/ start date of observations (UT)
DATE-END= '2007-12-09T01:16:24'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 190.6832 / average optical axis location R.A.(deg)
DEC_PNT = 3.0555 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 190.6614 / average optical axis location R.A.(deg)
DEC_PNT = 3.0014 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6905 / average optical axis location R.A.(deg)
DEC_PNT = 3.0762 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6785 / average optical axis location R.A.(deg)
DEC_PNT = 3.0695 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6836 / average optical axis location R.A.(deg)
DEC_PNT = 3.0452 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 190.6896 / average optical axis location R.A.(deg)
DEC_PNT = 3.0428 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae802022010.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 0.876 1.835 2.711 98.37
(others) 0.031 0.014 0.045 1.63
--------------------------------------------------------------------------
TOTAL 0.907 1.849 2.756 100.00
-> Generating filter file ae802022010xi0_0.filter.Reading ASCII configuration file ae802022010xi0_0.config-> newmakefilter created ae802022010xi0_0.filter.
Time column is TIME ORDERED-> Generating filter file ae802022010xi1_0.filter.
Reading ASCII configuration file ae802022010xi1_0.config-> newmakefilter created ae802022010xi1_0.filter.
Time column is TIME ORDERED-> Generating filter file ae802022010xi2_0.filter.
Reading ASCII configuration file ae802022010xi2_0.config-> newmakefilter created ae802022010xi2_0.filter.
Time column is TIME ORDERED-> Generating filter file ae802022010xi3_0.filter.
Reading ASCII configuration file ae802022010xi3_0.config-> newmakefilter created ae802022010xi3_0.filter.
Time column is TIME ORDERED
hk_dir,s,hl,"./",,,"HXD HK file directory ?" hk_file,s,hl,"ae802022010hxd_0.hk",,,"HXD HK file name ?" WPU,s,hl,"0123",,,"WPU board IDs ?" gti_fname,s,hl,"ae802022010hxd_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 = ae802022010hxd_0.hk hxdgtigen: WPU = 0123 hxdgtigen: fifo full = yes hxdgtigen: output gti = ae802022010hxd_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 ae802022010hxd_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,"ae802022010hxd_1_wel.fff",,,"HXD event fits file name ?" tim_filename,f,a,"ae802022010.tim",,,"input .tim FITS file name (HXDtimeSet)" leapfile,f,a,"CALDB",,,"leapsec file name" hklist_name,f,a,"ae802022010hxd_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 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae802022010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 10214194
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 10214193/10214194
[ 2] HXDleapsecInit version 2.0.1
| OK: 10214193/10214193
[ 3] HXDgethkInit version 0.1.0
| OK: 10214193/10214193
[ 4] HXDfwelTimeFITS version 0.3.8
| OK: 10214193/10214193
[ 5] HXDfwelTime version 2.0.0
| OK: 10214193/10214193
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 10214193/10214193
GET: 10214193
*** 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 10214193 0 SINGLE
HXD:WEL:EV_TIME 8 8 20428386 10214193 SINGLE
HXD:WEL:MTI 4 4 20428386 10214193 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 10214193 10214193 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_RESERV 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 10214193 10214193 SINGLE
HXD:WEL:DET_TYPE 4 4 10214193 10214193 SINGLE
HXD:WEL:PI_FAST 4 4 10214193 10214193 SINGLE
HXD:WEL:PI_SLOW 4 4 10214193 10214193 SINGLE
HXD:WEL:PI_PIN 16 16 10214193 10214193 SINGLE
HXD:WEL:UPI_FAST 8 8 10214193 10214193 SINGLE
HXD:WEL:UPI_SLOW 8 8 10214193 10214193 SINGLE
HXD:WEL:UPI_PIN 32 32 10214193 10214193 SINGLE
HXD:WEL:PIN_ID 4 4 10214193 10214193 SINGLE
HXD:WEL:UNITID 4 4 10214193 20427765 SINGLE
HXD:WEL:LENGTH_CHK 4 4 10214193 10214193 SINGLE
HXD:WEL:WELTIME 4 4 10214193 20427765 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 10214193 10214193 SINGLE
HXD:WEL:TRIG 4 4 10214193 10214193 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 10214193 10214193 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 10214193 10214193 SINGLE
HXD:WEL:PHA_FAST 4 4 10214193 10214193 SINGLE
HXD:WEL:PHA_SLOW 4 4 10214193 10214193 SINGLE
HXD:WEL:PHA_PIN 16 16 10214193 10214193 SINGLE
HXD:WEL:PACKET_AETIME 8 8 10214193 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 10214193 30641337 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 10214193 20427765 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 10238908 30642579 SINGLE
HXD:WEL:EVENT 204 204 20427765 10213572 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 12047 12047 SINGLE
HXDfwelTime:HXD_AE_TM_LATCH_TM 4 4 12047 12047 SINGLE
HXDfwelTime:HXD_WPU_CLK_RATE 4 4 12047 10213573 SINGLE
HXDfwelTime:HXD_SYS_TIME 8 8 12047 0 SINGLE
HXDfwelTime:HXD_HK_TIME 8 8 12047 0 SINGLE
HXDfwelTime:PWH 64 0 0 0 SINGLE
HXDfwelTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfwelTime:TIME_INVALID 4 4 10214193 0 SINGLE
HXDfwelTime:EV_TIME_TLM 8 8 10214193 0 SINGLE
HXDfwelTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 255.311 17.547 272.858 40.87
[ 2] HXDleapsecInit 3.328 6.602 9.929 1.49
[ 3] HXDgethkInit 3.180 5.961 9.141 1.37
[ 4] HXDfwelTimeFITS 5.946 11.061 17.007 2.55
[ 5] HXDfwelTime 45.049 6.677 51.726 7.75
[ 6] HXD2ndeventFitsWrite 250.619 56.343 306.962 45.98
(others) 0.020 0.012 0.032 0.00
--------------------------------------------------------------------------
TOTAL 563.452 104.204 667.657 100.00
-> hxdtime successful for ae802022010hxd_1_wel.sff.input_name,f,a,"ae802022010hxd_1_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae802022010hxd_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,"ae802022010",,,"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 = ae802022010hxd_1_wel.sff, HK = ae802022010hxd_0.hk
rm -rf ae802022010_hxdmkgainhist_tmp; mkdir ae802022010_hxdmkgainhist_tmp
maketime infile="ae802022010hxd_0.hk+1" outfile="ae802022010_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 = ae802022010_hxdmkgainhist_tmp/total.gti
fdump infile="ae802022010_hxdmkgainhist_tmp/total.gti" outfile="ae802022010_hxdmkgainhist_tmp/fdump.log" columns='START,STOP' rows=- prhead=no pagewidth=100 showrow=no
fdump log = ae802022010_hxdmkgainhist_tmp/fdump.log
GTI LIST = ae802022010_hxdmkgainhist_tmp/gtilist
Exposure = 1000000
Making Non-selection fits file now.
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff" expr="(UNITID=="0")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff" expr="(UNITID=="1")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff" expr="(UNITID=="2")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff" expr="(UNITID=="3")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff" expr="(UNITID=="4")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff" expr="(UNITID=="5")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff" expr="(UNITID=="6")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff" expr="(UNITID=="7")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff" expr="(UNITID=="8")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff" expr="(UNITID=="9")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff" expr="(UNITID=="10")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff" expr="(UNITID=="11")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff" expr="(UNITID=="12")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff" expr="(UNITID=="13")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff" expr="(UNITID=="14")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff" expr="(UNITID=="15")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
Making Hit Pattern 8 fits file now.
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff" expr="(UNITID==0) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0111000000000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b11100000000000000011) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff" expr="(UNITID==1) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1011100100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b01110000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff" expr="(UNITID==2) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1101100110001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff" expr="(UNITID==3) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1110000000001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000111) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff" expr="(UNITID==4) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110011100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00111000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff" expr="(UNITID==5) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000101100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00011111000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff" expr="(UNITID==6) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000110111000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000011100000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff" expr="(UNITID==7) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110111011000100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff" expr="(UNITID==8) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0010001101110110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff" expr="(UNITID==9) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000001110110000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000001110000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff" expr="(UNITID==10) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011010000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000111110000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff" expr="(UNITID==11) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011100110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000111000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff" expr="(UNITID==12) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000000000111) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000001110) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff" expr="(UNITID==13) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000110011011) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff" expr="(UNITID==14) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000010011101) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000011100000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_1_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff
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Total Good Bad: Region Time Phase Grade Cut
563292 562786 0 506 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
563292 562786 0 506 0 0 0
in 71170. seconds
Spectrum has 562786 counts for 7.908 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff
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Total Good Bad: Region Time Phase Grade Cut
563292 562786 0 506 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
563292 562786 0 506 0 0 0
in 71170. seconds
Spectrum has 562786 counts for 7.908 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
236058 235835 0 223 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
236058 235835 0 223 0 0 0
in 71170. seconds
Spectrum has 235835 counts for 3.314 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
236058 235835 0 223 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
236058 235835 0 223 0 0 0
in 71170. seconds
Spectrum has 235835 counts for 3.314 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
574367 573857 0 510 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
574367 573857 0 510 0 0 0
in 71170. seconds
Spectrum has 573857 counts for 8.063 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
574367 573857 0 510 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
574367 573857 0 510 0 0 0
in 71170. seconds
Spectrum has 573857 counts for 8.063 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
258162 257916 0 246 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
258162 257916 0 246 0 0 0
in 71170. seconds
Spectrum has 257916 counts for 3.624 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
258162 257916 0 246 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
258162 257916 0 246 0 0 0
in 71170. seconds
Spectrum has 257916 counts for 3.624 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
535076 534641 0 435 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
535076 534641 0 435 0 0 0
in 71170. seconds
Spectrum has 534641 counts for 7.512 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
535076 534641 0 435 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
535076 534641 0 435 0 0 0
in 71170. seconds
Spectrum has 534641 counts for 7.512 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
236447 236234 0 213 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
236447 236234 0 213 0 0 0
in 71170. seconds
Spectrum has 236234 counts for 3.319 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
236447 236234 0 213 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
236447 236234 0 213 0 0 0
in 71170. seconds
Spectrum has 236234 counts for 3.319 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
578255 577720 0 535 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
578255 577720 0 535 0 0 0
in 71170. seconds
Spectrum has 577720 counts for 8.117 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
578255 577720 0 535 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
578255 577720 0 535 0 0 0
in 71170. seconds
Spectrum has 577720 counts for 8.117 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
242837 242587 0 250 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
242837 242587 0 250 0 0 0
in 71170. seconds
Spectrum has 242587 counts for 3.409 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
242837 242587 0 250 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
242837 242587 0 250 0 0 0
in 71170. seconds
Spectrum has 242587 counts for 3.409 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
545211 544746 0 465 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
545211 544746 0 465 0 0 0
in 71170. seconds
Spectrum has 544746 counts for 7.654 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
545211 544746 0 465 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
545211 544746 0 465 0 0 0
in 71170. seconds
Spectrum has 544746 counts for 7.654 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
225372 225164 0 208 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
225372 225164 0 208 0 0 0
in 71170. seconds
Spectrum has 225164 counts for 3.164 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
225372 225164 0 208 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
225372 225164 0 208 0 0 0
in 71170. seconds
Spectrum has 225164 counts for 3.164 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
554090 553611 0 479 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
554090 553611 0 479 0 0 0
in 71170. seconds
Spectrum has 553611 counts for 7.779 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
554090 553611 0 479 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
554090 553611 0 479 0 0 0
in 71170. seconds
Spectrum has 553611 counts for 7.779 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
231966 231747 0 219 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
231966 231747 0 219 0 0 0
in 71170. seconds
Spectrum has 231747 counts for 3.256 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
231966 231747 0 219 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
231966 231747 0 219 0 0 0
in 71170. seconds
Spectrum has 231747 counts for 3.256 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
555991 555556 0 435 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
555991 555556 0 435 0 0 0
in 71170. seconds
Spectrum has 555556 counts for 7.806 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
555991 555556 0 435 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
555991 555556 0 435 0 0 0
in 71170. seconds
Spectrum has 555556 counts for 7.806 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
231356 231161 0 195 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
231356 231161 0 195 0 0 0
in 71170. seconds
Spectrum has 231161 counts for 3.248 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
231356 231161 0 195 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
231356 231161 0 195 0 0 0
in 71170. seconds
Spectrum has 231161 counts for 3.248 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
642135 641588 0 547 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
642135 641588 0 547 0 0 0
in 71170. seconds
Spectrum has 641588 counts for 9.015 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
642135 641588 0 547 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
642135 641588 0 547 0 0 0
in 71170. seconds
Spectrum has 641588 counts for 9.015 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
260264 260034 0 230 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
260264 260034 0 230 0 0 0
in 71170. seconds
Spectrum has 260034 counts for 3.654 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
260264 260034 0 230 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
260264 260034 0 230 0 0 0
in 71170. seconds
Spectrum has 260034 counts for 3.654 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
573388 572875 0 513 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
573388 572875 0 513 0 0 0
in 71170. seconds
Spectrum has 572875 counts for 8.049 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
573388 572875 0 513 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
573388 572875 0 513 0 0 0
in 71170. seconds
Spectrum has 572875 counts for 8.049 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
241096 240878 0 218 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
241096 240878 0 218 0 0 0
in 71170. seconds
Spectrum has 240878 counts for 3.385 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
241096 240878 0 218 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
241096 240878 0 218 0 0 0
in 71170. seconds
Spectrum has 240878 counts for 3.385 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
534032 533578 0 454 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
534032 533578 0 454 0 0 0
in 71170. seconds
Spectrum has 533578 counts for 7.497 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
534032 533578 0 454 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
534032 533578 0 454 0 0 0
in 71170. seconds
Spectrum has 533578 counts for 7.497 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
227207 226994 0 213 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
227207 226994 0 213 0 0 0
in 71170. seconds
Spectrum has 226994 counts for 3.189 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
227207 226994 0 213 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
227207 226994 0 213 0 0 0
in 71170. seconds
Spectrum has 226994 counts for 3.189 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
553226 552736 0 490 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
553226 552736 0 490 0 0 0
in 71170. seconds
Spectrum has 552736 counts for 7.766 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
553226 552736 0 490 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
553226 552736 0 490 0 0 0
in 71170. seconds
Spectrum has 552736 counts for 7.766 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
230917 230708 0 209 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
230917 230708 0 209 0 0 0
in 71170. seconds
Spectrum has 230708 counts for 3.242 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
230917 230708 0 209 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
230917 230708 0 209 0 0 0
in 71170. seconds
Spectrum has 230708 counts for 3.242 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
638405 637866 0 539 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
638405 637866 0 539 0 0 0
in 71170. seconds
Spectrum has 637866 counts for 8.963 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
638405 637866 0 539 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
638405 637866 0 539 0 0 0
in 71170. seconds
Spectrum has 637866 counts for 8.963 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
260325 260086 0 239 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
260325 260086 0 239 0 0 0
in 71170. seconds
Spectrum has 260086 counts for 3.654 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
260325 260086 0 239 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
260325 260086 0 239 0 0 0
in 71170. seconds
Spectrum has 260086 counts for 3.654 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
579108 578592 0 516 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
579108 578592 0 516 0 0 0
in 71170. seconds
Spectrum has 578592 counts for 8.130 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
579108 578592 0 516 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
579108 578592 0 516 0 0 0
in 71170. seconds
Spectrum has 578592 counts for 8.130 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
244209 243981 0 228 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
244209 243981 0 228 0 0 0
in 71170. seconds
Spectrum has 243981 counts for 3.428 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
244209 243981 0 228 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
244209 243981 0 228 0 0 0
in 71170. seconds
Spectrum has 243981 counts for 3.428 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
537819 537369 0 450 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
537819 537369 0 450 0 0 0
in 71170. seconds
Spectrum has 537369 counts for 7.550 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
537819 537369 0 450 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
537819 537369 0 450 0 0 0
in 71170. seconds
Spectrum has 537369 counts for 7.550 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
235453 235243 0 210 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
235453 235243 0 210 0 0 0
in 71170. seconds
Spectrum has 235243 counts for 3.305 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
235453 235243 0 210 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
235453 235243 0 210 0 0 0
in 71170. seconds
Spectrum has 235243 counts for 3.305 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
572586 572107 0 479 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
572586 572107 0 479 0 0 0
in 71170. seconds
Spectrum has 572107 counts for 8.039 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
572586 572107 0 479 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
572586 572107 0 479 0 0 0
in 71170. seconds
Spectrum has 572107 counts for 8.039 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
235746 235532 0 214 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
235746 235532 0 214 0 0 0
in 71170. seconds
Spectrum has 235532 counts for 3.309 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
235746 235532 0 214 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
235746 235532 0 214 0 0 0
in 71170. seconds
Spectrum has 235532 counts for 3.309 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
552401 551954 0 447 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
552401 551954 0 447 0 0 0
in 71170. seconds
Spectrum has 551954 counts for 7.755 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
552401 551954 0 447 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
552401 551954 0 447 0 0 0
in 71170. seconds
Spectrum has 551954 counts for 7.755 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15_hitpat8.fff
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100% completed
Total Good Bad: Region Time Phase Grade Cut
233701 233498 0 203 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
233701 233498 0 203 0 0 0
in 71170. seconds
Spectrum has 233498 counts for 3.281 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15_hitpat8.fff
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100% completed
Total Good Bad: Region Time Phase Grade Cut
233701 233498 0 203 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
233701 233498 0 203 0 0 0
in 71170. seconds
Spectrum has 233498 counts for 3.281 counts/sec
... written the PHA data Extension
rbnpha infile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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 19:18:21 12-Jun-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 3.314 +/- 6.8235E-03
Net count rate (cts/s) for file 2 3.314 +/- 6.8235E-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 = 360139.6 using 168 PHA bins.
Reduced chi-squared = 2250.873 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21657.08 using 168 PHA bins.
Reduced chi-squared = 135.3568 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6641.27 -3 82.07 15.75 0.1916 1.009
0.7837 82.57 15.39 1.001
3187.24 -4 72.91 6.637 8.9085E-02 0.8921
0.6745 74.70 7.377 0.8971
3184.11 -5 76.85 15.57 0.1828 1.031
0.9837 78.96 17.94 1.029
2435.98 0 76.74 14.63 0.1900 1.030
0.9889 78.54 15.92 1.028
865.001 0 76.41 9.948 0.2078 1.026
1.004 77.24 9.729 1.025
850.507 -1 76.71 9.449 0.2016 1.024
1.026 77.97 12.16 1.025
719.689 -2 76.84 9.210 0.1922 1.038
1.096 78.16 9.864 1.039
715.089 0 76.83 9.269 0.1939 1.038
1.097 78.23 9.965 1.039
713.298 -1 76.80 9.416 0.1980 1.040
1.103 78.26 10.41 1.041
694.582 -2 76.86 9.427 0.1993 1.052
1.159 78.30 10.11 1.053
688.266 -3 77.02 9.519 0.2028 1.087
1.324 78.50 10.31 1.087
666.842 -4 77.09 9.527 0.2035 1.099
1.407 78.57 10.24 1.100
665.291 -5 77.09 9.537 0.2038 1.099
1.414 78.57 10.26 1.101
665.289 -6 77.10 9.534 0.2037 1.099
1.414 78.57 10.25 1.101
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.57E-07 | 0.00 0.00 -0.27 0.69 -0.23 0.00 0.00 0.63
8.57E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.74
7.28E-06 | 0.00 0.01 -0.96 -0.18 0.07 0.00 0.05 -0.19
1.12E-03 | 0.01 -0.06 0.04 -0.01 -0.13 0.03 0.99 -0.01
2.59E-03 | -0.06 -0.05 0.02 0.17 0.96 -0.06 0.12 0.16
3.38E-02 | 0.75 0.66 0.01 0.01 0.07 -0.06 0.04 0.01
3.90E-02 | -0.53 0.65 0.01 0.01 0.02 0.54 0.03 0.01
4.74E-02 | 0.39 -0.37 -0.01 0.01 0.06 0.84 -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 77.0959 +/- 0.192882 1
2 2 1 gaussian Sigma keV 9.53355 +/- 0.194142 1
3 3 1 gaussian norm 0.203693 +/- 0.381854E-02 1
4 4 2 powerlaw PhoIndex 1.09927 +/- 0.934157E-02 1
5 5 2 powerlaw norm 1.41365 +/- 0.524591E-01 1
6 6 3 gaussian LineE keV 78.5712 +/- 0.211614 2
7 7 3 gaussian Sigma keV 10.2513 +/- 0.363533E-01 2
8 3 3 gaussian norm 0.203693 = par 3 2
9 8 4 powerlaw PhoIndex 1.10085 +/- 0.897834E-02 2
10 5 4 powerlaw norm 1.41365 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 665.2888 using 168 PHA bins.
Reduced chi-squared = 4.158055 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 ( 3.984) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.984) > 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 125. reset by matrix bound to 124.
Model flux 1.249 photons ( 1.4795E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.242 photons ( 1.4759E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:22 12-Jun-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 7.908 +/- 1.0541E-02
Net count rate (cts/s) for file 2 7.908 +/- 1.0541E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.594 +/- 1.2557E-02( 58.1% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.594 +/- 1.2557E-02( 58.1% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.0269126E+07 using 198 PHA bins.
Reduced chi-squared = 54048.03 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 109319.7 using 198 PHA bins.
Reduced chi-squared = 575.3666 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
68736.0 -3 110.0 19.31 0.4942 2.807
0.1537 99.62 19.30 2.745
48473.4 -2 99.33 19.34 2.031 6.651
6.2132E-02 104.0 19.33 1.009
47230.2 -2 98.14 19.36 2.239 8.822
1.3431E-02 101.1 19.35 1.114
42516.4 -1 99.11 19.36 2.069 9.275
4.2915E-03 101.3 19.36 1.358
39867.6 -1 100.7 19.36 1.989 9.462
5.9838E-04 102.3 19.36 3.048
36214.1 0 102.3 19.37 1.868 9.499
7.8170E-06 103.6 19.37 9.202
34893.6 -1 104.1 19.37 1.879 9.499
3.3632E-06 105.0 19.37 9.377
33219.0 -1 105.5 19.37 1.853 9.500
1.6695E-06 106.2 19.37 9.464
29556.4 0 107.0 19.37 1.741 9.500
6.9776E-07 107.6 19.37 9.496
28579.5 -1 108.4 19.37 1.751 9.500
3.0316E-07 108.9 19.37 9.498
27253.1 -1 109.5 19.37 1.726 9.500
7.9615E-08 109.8 19.37 9.500
24687.2 -1 111.3 19.37 1.662 9.500
8.2979E-09 111.5 19.37 9.500
22349.5 -1 113.0 19.37 1.586 9.500
1.5385E-09 113.0 19.37 9.500
21518.5 -1 113.8 19.37 1.555 9.500
5.6900E-10 113.6 19.37 9.500
20980.3 -1 114.3 19.37 1.533 9.500
7.9694E-11 114.1 19.37 9.500
20647.1 -1 114.8 19.37 1.517 9.500
1.7414E-11 114.5 19.37 9.500
20366.4 -1 115.1 19.37 1.502 9.500
1.7291E-12 114.9 19.37 9.500
Fit parameter 5 has pegged
19267.4 -2 116.2 19.37 1.386 9.500
0.000 115.7 18.42 9.500
Fit parameter 5 has pegged
19027.9 -3 116.5 19.37 1.387 9.500
0.000 115.7 19.04 9.500
Fit parameter 5 has pegged
18887.3 -4 116.8 19.37 1.368 9.500
0.000 116.1 18.84 9.500
Fit parameter 5 has pegged
18853.7 -5 116.9 19.37 1.365 9.500
0.000 116.2 18.90 9.500
Fit parameter 5 has pegged
18819.0 -6 117.0 19.37 1.361 9.500
0.000 116.2 18.83 9.500
Fit parameter 5 has pegged
18815.3 -2 117.0 19.37 1.361 9.500
0.000 116.3 18.85 9.500
Fit parameter 5 has pegged
18795.0 -3 117.1 19.37 1.358 9.500
0.000 116.3 18.81 9.500
Fit parameter 5 has pegged
18791.5 -2 117.1 19.37 1.358 9.500
0.000 116.3 18.83 9.500
Fit parameter 5 has pegged
18758.4 -1 117.3 19.37 1.354 9.500
0.000 116.4 18.80 9.500
Fit parameter 5 has pegged
18736.5 -1 117.3 19.37 1.351 9.500
0.000 116.4 18.79 9.500
Fit parameter 5 has pegged
18719.1 -1 117.4 19.37 1.349 9.500
0.000 116.4 18.77 9.500
Fit parameter 5 has pegged
18657.7 0 117.7 19.37 1.341 9.500
0.000 116.5 18.76 9.500
Fit parameter 5 has pegged
18619.5 0 117.9 19.37 1.336 9.500
0.000 116.5 18.75 9.500
Fit parameter 5 has pegged
18596.2 0 118.1 19.37 1.331 9.500
0.000 116.6 18.73 9.500
Fit parameter 5 has pegged
18580.9 0 118.2 19.37 1.328 9.500
0.000 116.6 18.71 9.500
Fit parameter 5 has pegged
18569.5 0 118.3 19.37 1.326 9.500
0.000 116.7 18.69 9.500
Fit parameter 5 has pegged
18562.3 0 118.3 19.37 1.324 9.500
0.000 116.7 18.67 9.500
Fit parameter 5 has pegged
18556.8 0 118.4 19.37 1.322 9.500
0.000 116.8 18.66 9.500
Fit parameter 5 has pegged
18553.6 0 118.4 19.37 1.321 9.500
0.000 116.8 18.65 9.500
Fit parameter 5 has pegged
18551.4 0 118.4 19.37 1.320 9.500
0.000 116.8 18.64 9.500
Fit parameter 5 has pegged
18549.0 0 118.4 19.37 1.320 9.500
0.000 116.8 18.63 9.500
Fit parameter 5 has pegged
18546.8 0 118.4 19.37 1.319 9.500
0.000 116.9 18.62 9.500
Fit parameter 5 has pegged
18545.8 0 118.4 19.37 1.318 9.500
0.000 116.9 18.62 9.500
Fit parameter 5 has pegged
18544.7 0 118.4 19.37 1.318 9.500
0.000 116.9 18.61 9.500
Fit parameter 5 has pegged
18543.9 0 118.5 19.37 1.318 9.500
0.000 116.9 18.61 9.500
Fit parameter 5 has pegged
18542.3 0 118.5 19.37 1.317 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18539.6 0 118.5 19.37 1.317 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18537.0 0 118.5 19.37 1.316 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18534.6 0 118.6 19.37 1.315 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18532.6 0 118.6 19.37 1.315 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18530.9 0 118.6 19.37 1.314 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18529.1 0 118.7 19.37 1.314 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18527.6 0 118.7 19.37 1.313 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18526.3 0 118.7 19.37 1.313 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18525.1 0 118.7 19.37 1.312 9.500
0.000 116.9 18.60 9.500
Fit parameter 5 has pegged
18524.1 0 118.7 19.37 1.312 9.500
0.000 116.9 18.59 9.500
Fit parameter 5 has pegged
18523.0 0 118.8 19.37 1.312 9.500
0.000 116.9 18.59 9.500
Fit parameter 5 has pegged
18522.2 0 118.8 19.37 1.311 9.500
0.000 116.9 18.59 9.500
Fit parameter 5 has pegged
18521.3 0 118.8 19.37 1.311 9.500
0.000 116.9 18.59 9.500
Fit parameter 5 has pegged
18520.7 0 118.8 19.37 1.310 9.500
0.000 116.9 18.59 9.500
Fit parameter 5 has pegged
18520.1 0 118.8 19.37 1.310 9.500
0.000 116.9 18.59 9.500
Fit parameter 5 has pegged
18519.3 0 118.8 19.37 1.310 9.500
0.000 116.9 18.59 9.500
Fit parameter 5 has pegged
18518.8 0 118.8 19.37 1.309 9.500
0.000 117.0 18.59 9.500
Fit parameter 5 has pegged
18518.3 0 118.9 19.37 1.309 9.500
0.000 117.0 18.59 9.500
Fit parameter 5 has pegged
18517.8 0 118.9 19.37 1.309 9.500
0.000 117.0 18.58 9.500
Fit parameter 5 has pegged
18517.5 0 118.9 19.37 1.309 9.500
0.000 117.0 18.58 9.500
Fit parameter 5 has pegged
18517.0 0 118.9 19.37 1.308 9.500
0.000 117.0 18.58 9.500
Fit parameter 5 has pegged
18516.7 0 118.9 19.37 1.308 9.500
0.000 117.0 18.58 9.500
Fit parameter 5 has pegged
18516.3 0 118.9 19.37 1.308 9.500
0.000 117.0 18.58 9.500
Fit parameter 5 has pegged
18516.1 0 118.9 19.37 1.308 9.500
0.000 117.0 18.58 9.500
Fit parameter 5 has pegged
18515.8 0 118.9 19.37 1.307 9.500
0.000 117.0 18.58 9.500
Fit parameter 5 has pegged
18515.6 0 118.9 19.37 1.307 9.500
0.000 117.0 18.57 9.500
Fit parameter 5 has pegged
18515.3 0 118.9 19.37 1.307 9.500
0.000 117.0 18.57 9.500
Fit parameter 5 has pegged
18515.1 0 118.9 19.37 1.307 9.500
0.000 117.0 18.57 9.500
Fit parameter 5 has pegged
18514.8 0 118.9 19.37 1.307 9.500
0.000 117.0 18.57 9.500
Fit parameter 5 has pegged
18514.7 0 119.0 19.37 1.306 9.500
0.000 117.0 18.57 9.500
Fit parameter 5 has pegged
18514.5 0 119.0 19.37 1.306 9.500
0.000 117.0 18.57 9.500
Fit parameter 5 has pegged
18514.2 0 119.0 19.37 1.306 9.500
0.000 117.0 18.57 9.500
Fit parameter 5 has pegged
18514.2 0 119.0 19.37 1.306 9.500
0.000 117.0 18.56 9.500
Fit parameter 5 has pegged
18514.0 0 119.0 19.37 1.306 9.500
0.000 117.0 18.56 9.500
Fit parameter 5 has pegged
18513.8 0 119.0 19.37 1.306 9.500
0.000 117.0 18.56 9.500
Fit parameter 5 has pegged
18513.8 0 119.0 19.37 1.306 9.500
0.000 117.0 18.56 9.500
Fit parameter 5 has pegged
18513.7 0 119.0 19.37 1.305 9.500
0.000 117.0 18.56 9.500
Fit parameter 5 has pegged
18513.5 0 119.0 19.37 1.305 9.500
0.000 117.0 18.56 9.500
Fit parameter 5 has pegged
18513.4 0 119.0 19.37 1.305 9.500
0.000 117.0 18.56 9.500
Fit parameter 5 has pegged
18513.3 0 119.0 19.37 1.305 9.500
0.000 117.0 18.56 9.500
Fit parameter 5 has pegged
18513.2 0 119.0 19.37 1.305 9.500
0.000 117.0 18.56 9.500
Fit parameter 5 has pegged
18513.0 0 119.0 19.37 1.305 9.500
0.000 117.0 18.55 9.500
Fit parameter 5 has pegged
18513.0 2 119.0 19.37 1.305 9.500
0.000 117.0 18.55 9.500
Fit parameter 5 has pegged
18513.0 5 119.0 19.37 1.305 9.500
0.000 117.0 18.55 9.500
18513.0 5 119.0 19.37 1.305 9.500
0.000 117.0 18.55 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.82E-05 | -0.01 0.00 -1.00 -0.01 0.00
9.58E-03 | 0.11 0.00 0.01 -0.89 -0.44
1.44E-02 | -0.99 -0.07 0.01 -0.06 -0.11
1.79E+00 | 0.07 -1.00 0.00 0.02 -0.04
6.50E-02 | 0.07 0.05 -0.01 0.45 -0.89
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.996 +/- 0.152329 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.33422 1
3 3 1 gaussian norm 1.30479 +/- 0.555031E-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 117.037 +/- 0.148058 2
7 7 3 gaussian Sigma keV 18.5543 +/- 0.235918 2
8 3 3 gaussian norm 1.30479 = 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 = 18513.01 using 198 PHA bins.
Reduced chi-squared = 97.43687 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 ( 93.975) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 93.975) > 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 1.092 photons ( 2.1810E-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 ( 2.1094E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:23 12-Jun-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 3.314 +/- 6.8235E-03
Net count rate (cts/s) for file 2 3.314 +/- 6.8235E-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 = 430460.4 using 168 PHA bins.
Reduced chi-squared = 2690.377 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 31910.81 using 168 PHA bins.
Reduced chi-squared = 199.4425 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
21086.3 -3 85.23 13.36 0.1548 1.112
0.9472 85.52 12.50 1.098
3745.52 -4 71.02 13.52 0.1961 1.002
1.052 73.90 12.54 1.010
2232.92 -3 82.16 9.378 0.1507 1.122
1.494 81.01 9.667 1.119
1848.90 -4 76.03 16.04 0.2043 1.110
1.479 78.14 13.90 1.112
1057.29 -1 79.02 7.189 0.1790 1.109
1.491 79.06 9.473 1.109
810.806 -2 77.58 9.807 0.2022 1.109
1.477 78.67 12.30 1.111
672.264 -3 77.17 9.284 0.1960 1.097
1.413 78.59 9.859 1.099
669.142 0 77.14 9.344 0.1974 1.098
1.412 78.61 9.991 1.099
666.768 -1 77.08 9.521 0.2023 1.098
1.409 78.59 10.39 1.100
665.331 -2 77.09 9.526 0.2033 1.098
1.409 78.56 10.22 1.100
665.291 -3 77.09 9.538 0.2038 1.099
1.412 78.57 10.26 1.101
665.289 -4 77.10 9.533 0.2037 1.099
1.414 78.57 10.25 1.101
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.57E-07 | 0.00 0.00 -0.27 0.69 -0.23 0.00 0.00 0.63
8.56E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.74
7.28E-06 | 0.00 0.01 -0.96 -0.18 0.07 0.00 0.05 -0.19
1.10E-03 | 0.01 -0.06 0.04 -0.01 -0.12 0.02 0.99 -0.01
2.59E-03 | -0.06 -0.05 0.02 0.17 0.96 -0.06 0.12 0.16
3.38E-02 | 0.75 0.66 0.01 0.01 0.07 -0.06 0.04 0.01
3.91E-02 | -0.54 0.65 0.01 0.01 0.02 0.53 0.03 0.01
4.75E-02 | 0.39 -0.37 -0.01 0.01 0.06 0.84 -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 77.0960 +/- 0.192879 1
2 2 1 gaussian Sigma keV 9.53298 +/- 0.194160 1
3 3 1 gaussian norm 0.203679 +/- 0.381937E-02 1
4 4 2 powerlaw PhoIndex 1.09926 +/- 0.934138E-02 1
5 5 2 powerlaw norm 1.41354 +/- 0.524100E-01 1
6 6 3 gaussian LineE keV 78.5709 +/- 0.211806 2
7 7 3 gaussian Sigma keV 10.2497 +/- 0.360362E-01 2
8 3 3 gaussian norm 0.203679 = par 3 2
9 8 4 powerlaw PhoIndex 1.10083 +/- 0.897816E-02 2
10 5 4 powerlaw norm 1.41354 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 665.2889 using 168 PHA bins.
Reduced chi-squared = 4.158055 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 ( 3.984) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.984) > 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 125. reset by matrix bound to 124.
Model flux 1.249 photons ( 1.4795E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.242 photons ( 1.4759E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
135.3568
=====best line=====
77.0959 0.192882
=====best sigma=====
9.53355 0.194142
=====norm=====
0.203693 0.381854E-02
=====phoindx=====
1.09927 0.934157E-02
=====pow_norm=====
1.41365 0.524591E-01
=====best line=====
78.5712 0.211614
=====best sigma=====
10.2513 0.363533E-01
=====norm=====
0.203693 par
=====phoindx=====
1.10085 0.897834E-02
=====pow_norm=====
1.41365 par
=====redu_chi=====
4.158055
=====area_flux=====
1.249
=====area_flux_f=====
1.242
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 0 1 640 2000 1233.5344 0 0.203693 0.381854E-02 9.53355 0.194142 1.09927 0.934157E-02 1.41365 0.524591E-01 1.249 640 2000 1257.1392 0 0.203693 0.381854E-02 10.2513 0.363533E-01 1.10085 0.897834E-02 1.41365 0.524591E-01 1.242 4.158055 1
=====redu_chi=====
575.3666
=====best line=====
118.996 0.152329
=====best sigma=====
19.3655 1.33422
=====norm=====
1.30479 0.555031E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
117.037 0.148058
=====best sigma=====
18.5543 0.235918
=====norm=====
1.30479 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
97.43687
=====area_flux=====
1.092
=====area_flux_f=====
1.071
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 0 1 1600 3200 1903.936 0 1.30479 0.555031E-02 309.848 21.34752 9.50000 -1.00000 0.00000 -1.00000 1.092 1600 3200 1872.592 0 1.30479 0.555031E-02 296.8688 3.774688 9.50001 -1.00000 0.00000 -1.00000 1.071 97.43687 1
=====redu_chi=====
199.4425
=====best line=====
77.0960 0.192879
=====best sigma=====
9.53298 0.194160
=====norm=====
0.203679 0.381937E-02
=====phoindx=====
1.09926 0.934138E-02
=====pow_norm=====
1.41354 0.524100E-01
=====best line=====
78.5709 0.211806
=====best sigma=====
10.2497 0.360362E-01
=====norm=====
0.203679 par
=====phoindx=====
1.10083 0.897816E-02
=====pow_norm=====
1.41354 par
=====redu_chi=====
4.158055
=====area_flux=====
1.249
=====area_flux_f=====
1.242
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 0 1 640 2000 1233.536 0 0.203679 0.381937E-02 9.53298 0.194160 1.09926 0.934138E-02 1.41354 0.524100E-01 1.249 640 2000 1257.1344 0 0.203679 0.381937E-02 10.2497 0.360362E-01 1.10083 0.897816E-02 1.41354 0.524100E-01 1.242 4.158055 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:23 12-Jun-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 3.624 +/- 7.1358E-03
Net count rate (cts/s) for file 2 3.624 +/- 7.1358E-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 = 325111.7 using 168 PHA bins.
Reduced chi-squared = 2031.948 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16031.12 using 168 PHA bins.
Reduced chi-squared = 100.1945 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2363.33 -3 83.16 15.22 0.2004 0.9186
0.6329 84.02 14.43 0.9154
1642.18 -4 76.01 7.947 0.1130 0.8521
0.5354 78.89 8.637 0.8549
1087.00 -1 78.39 9.406 0.1719 0.8606
0.5298 80.94 12.51 0.8625
736.406 -2 78.24 8.963 0.1824 0.8872
0.5813 79.94 9.688 0.8874
726.513 -1 78.19 9.310 0.1905 0.8894
0.5875 80.51 10.82 0.8908
659.620 -2 78.32 9.290 0.1916 0.9111
0.6397 80.58 9.980 0.9118
625.258 -2 78.38 9.398 0.1950 0.9281
0.6872 80.74 10.30 0.9291
602.358 -2 78.46 9.394 0.1955 0.9414
0.7280 80.79 10.11 0.9424
599.041 -3 78.63 9.523 0.2000 0.9805
0.8445 81.01 10.33 0.9805
567.676 -4 78.71 9.553 0.2014 0.9946
0.9070 81.08 10.28 0.9955
565.181 -5 78.72 9.562 0.2016 0.9946
0.9119 81.08 10.29 0.9962
565.178 -6 78.72 9.560 0.2016 0.9945
0.9118 81.08 10.29 0.9962
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.99E-07 | 0.00 0.00 -0.26 0.67 -0.34 0.00 0.00 0.61
8.46E-07 | 0.00 0.00 -0.01 -0.68 0.00 0.00 0.00 0.73
7.16E-06 | 0.00 0.01 -0.97 -0.16 0.11 0.00 0.05 -0.17
9.55E-04 | 0.02 -0.03 0.03 -0.14 -0.53 0.03 0.83 -0.13
1.29E-03 | -0.03 -0.06 0.04 0.21 0.77 -0.02 0.56 0.21
3.50E-02 | 0.80 0.59 0.01 0.01 0.04 -0.11 0.04 0.01
4.66E-02 | 0.36 -0.32 0.00 0.01 0.03 0.87 -0.03 0.01
3.98E-02 | 0.48 -0.74 -0.01 -0.01 -0.02 -0.47 -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 78.7178 +/- 0.193779 1
2 2 1 gaussian Sigma keV 9.56014 +/- 0.196630 1
3 3 1 gaussian norm 0.201611 +/- 0.383398E-02 1
4 4 2 powerlaw PhoIndex 0.994528 +/- 0.948573E-02 1
5 5 2 powerlaw norm 0.911788 +/- 0.342514E-01 1
6 6 3 gaussian LineE keV 81.0789 +/- 0.211868 2
7 7 3 gaussian Sigma keV 10.2917 +/- 0.348670E-01 2
8 3 3 gaussian norm 0.201611 = par 3 2
9 8 4 powerlaw PhoIndex 0.996167 +/- 0.911780E-02 2
10 5 4 powerlaw norm 0.911788 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 565.1777 using 168 PHA bins.
Reduced chi-squared = 3.532361 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 ( 3.384) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.384) > 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 1.254 photons ( 1.5036E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.246 photons ( 1.5023E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:23 12-Jun-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 8.063 +/- 1.0644E-02
Net count rate (cts/s) for file 2 8.063 +/- 1.0644E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.439 +/- 1.2815E-02( 55.1% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.439 +/- 1.2815E-02( 55.1% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 8796467. using 198 PHA bins.
Reduced chi-squared = 46297.20 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 103209.3 using 198 PHA bins.
Reduced chi-squared = 543.2071 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
67871.3 -3 105.7 19.18 0.5112 2.805
0.1751 97.91 19.14 2.746
51585.3 -2 93.78 19.31 2.201 7.540
32.12 93.59 19.30 6.829
50576.4 -1 94.25 19.36 2.145 9.347
4.732 93.52 19.35 9.040
49718.7 -1 95.07 19.36 2.108 9.455
2.292 93.81 19.36 9.311
49238.2 0 95.31 19.36 2.081 9.486
0.8608 94.01 19.36 9.428
48766.5 0 95.56 19.37 2.056 9.498
8.5854E-02 94.23 19.36 9.477
46414.9 0 97.12 19.37 1.955 9.499
1.1448E-02 95.59 19.37 9.491
45945.5 -1 98.65 19.37 2.012 1.834
3.1210E-03 96.91 19.37 9.496
45857.6 1 98.68 19.37 2.008 1.501
1.1034E-02 96.94 19.37 9.499
45176.6 0 98.93 19.37 1.979 1.385
1.7475E-02 97.18 19.37 9.500
42064.9 0 100.6 19.37 1.871 1.320
2.4080E-02 98.83 19.37 9.500
41331.1 -1 102.3 19.37 1.922 1.363
2.4971E-02 100.8 19.37 9.500
40081.8 -1 103.6 19.37 1.917 1.396
2.8058E-02 102.4 19.37 9.500
38200.9 -1 104.8 19.37 1.886 1.541
1.5435E-02 104.0 19.37 9.500
36007.4 -1 106.1 19.37 1.849 1.970
6.2313E-03 105.6 19.37 9.500
33617.1 -1 107.4 19.37 1.808 9.116
3.4645E-04 107.1 19.37 9.500
31101.5 -1 108.7 19.37 1.764 9.459
3.9046E-05 108.7 19.37 9.500
28930.9 -1 109.9 19.37 1.728 1.814
1.7832E-05 110.1 19.37 9.500
23025.5 -2 113.0 19.37 1.584 8.845
1.8917E-06 112.8 19.37 9.500
21273.8 -2 114.3 19.37 1.545 -0.2899
1.6826E-07 114.0 19.37 9.500
19479.4 -3 115.7 19.37 1.488 9.042
4.3354E-08 115.1 19.37 9.500
18285.9 0 116.8 19.37 1.435 9.437
1.9134E-08 115.9 19.37 9.500
17565.3 0 117.7 19.37 1.403 9.489
1.2241E-09 116.8 19.37 9.500
17136.8 0 118.4 19.37 1.379 9.495
5.6237E-10 117.4 19.37 9.500
16886.0 0 119.0 19.37 1.361 9.499
2.1822E-10 117.9 19.37 9.500
16745.0 0 119.5 19.37 1.348 9.500
4.2780E-11 118.2 19.37 9.500
16626.5 0 120.0 19.37 1.330 9.501
8.4780E-12 118.7 19.37 9.500
16607.2 0 120.2 19.37 1.324 9.501
2.3187E-12 118.9 19.37 9.500
16594.6 0 120.3 19.37 1.319 9.501
7.6970E-13 119.0 19.37 9.500
Fit parameter 5 has pegged
16457.6 0 120.4 19.37 1.306 9.501
0.000 118.8 18.93 9.500
Fit parameter 5 has pegged
16442.4 0 120.4 19.37 1.301 9.501
0.000 118.9 18.95 9.500
Fit parameter 5 has pegged
16434.3 0 120.4 19.37 1.297 9.501
0.000 118.9 18.95 9.500
Fit parameter 5 has pegged
16429.2 0 120.4 19.37 1.295 9.501
0.000 118.9 18.94 9.500
Fit parameter 5 has pegged
16425.1 0 120.4 19.37 1.294 9.501
0.000 119.0 18.93 9.500
Fit parameter 5 has pegged
16422.6 0 120.4 19.37 1.293 9.501
0.000 119.0 18.92 9.500
Fit parameter 5 has pegged
16421.1 0 120.4 19.37 1.293 9.501
0.000 119.0 18.91 9.500
Fit parameter 5 has pegged
16419.9 0 120.4 19.37 1.292 9.501
0.000 119.0 18.90 9.500
Fit parameter 5 has pegged
16419.2 0 120.5 19.37 1.292 9.501
0.000 119.0 18.90 9.500
Fit parameter 5 has pegged
16416.9 0 120.5 19.37 1.291 9.501
0.000 119.1 18.90 9.500
Fit parameter 5 has pegged
16415.8 0 120.5 19.37 1.291 9.501
0.000 119.1 18.90 9.500
Fit parameter 5 has pegged
16415.4 0 120.5 19.37 1.291 9.501
0.000 119.1 18.89 9.500
Fit parameter 5 has pegged
16415.2 0 120.5 19.37 1.291 9.501
0.000 119.1 18.89 9.500
Fit parameter 5 has pegged
16410.0 0 120.5 19.37 1.290 9.501
0.000 119.1 18.89 9.500
Fit parameter 5 has pegged
16405.3 0 120.6 19.37 1.289 9.501
0.000 119.1 18.89 9.500
Fit parameter 5 has pegged
16401.1 0 120.6 19.37 1.288 9.501
0.000 119.1 18.89 9.500
Fit parameter 5 has pegged
16397.4 0 120.6 19.37 1.287 9.501
0.000 119.1 18.89 9.500
Fit parameter 5 has pegged
16394.0 0 120.7 19.37 1.286 9.501
0.000 119.1 18.88 9.500
Fit parameter 5 has pegged
16390.9 0 120.7 19.37 1.286 9.501
0.000 119.1 18.88 9.500
Fit parameter 5 has pegged
16388.1 0 120.8 19.37 1.285 9.501
0.000 119.1 18.88 9.500
Fit parameter 5 has pegged
16385.6 0 120.8 19.37 1.284 9.501
0.000 119.1 18.88 9.500
Fit parameter 5 has pegged
16383.4 0 120.8 19.37 1.283 9.501
0.000 119.1 18.88 9.500
Fit parameter 5 has pegged
16381.4 0 120.8 19.37 1.283 9.501
0.000 119.1 18.88 9.500
Fit parameter 5 has pegged
16379.5 0 120.9 19.37 1.282 9.501
0.000 119.1 18.88 9.500
Fit parameter 5 has pegged
16377.9 0 120.9 19.37 1.282 9.501
0.000 119.1 18.88 9.500
Fit parameter 5 has pegged
16376.4 0 120.9 19.37 1.281 9.501
0.000 119.1 18.87 9.500
Fit parameter 5 has pegged
16375.0 0 120.9 19.37 1.281 9.501
0.000 119.1 18.87 9.500
Fit parameter 5 has pegged
16373.8 0 121.0 19.37 1.280 9.501
0.000 119.1 18.87 9.500
Fit parameter 5 has pegged
16372.6 0 121.0 19.37 1.280 9.501
0.000 119.1 18.87 9.500
Fit parameter 5 has pegged
16371.7 0 121.0 19.37 1.279 9.501
0.000 119.1 18.87 9.500
Fit parameter 5 has pegged
16370.6 0 121.0 19.37 1.279 9.501
0.000 119.1 18.86 9.500
Fit parameter 5 has pegged
16369.7 0 121.0 19.37 1.279 9.501
0.000 119.1 18.86 9.500
Fit parameter 5 has pegged
16368.9 0 121.0 19.37 1.278 9.501
0.000 119.1 18.86 9.500
Fit parameter 5 has pegged
16368.2 0 121.1 19.37 1.278 9.501
0.000 119.2 18.86 9.500
Fit parameter 5 has pegged
16367.5 0 121.1 19.37 1.278 9.501
0.000 119.2 18.86 9.500
Fit parameter 5 has pegged
16366.9 0 121.1 19.37 1.277 9.501
0.000 119.2 18.86 9.500
Fit parameter 5 has pegged
16366.3 0 121.1 19.37 1.277 9.501
0.000 119.2 18.85 9.500
Fit parameter 5 has pegged
16365.8 0 121.1 19.37 1.277 9.501
0.000 119.2 18.85 9.500
Fit parameter 5 has pegged
16365.3 0 121.1 19.37 1.276 9.501
0.000 119.2 18.85 9.500
Fit parameter 5 has pegged
16364.9 0 121.1 19.37 1.276 9.501
0.000 119.2 18.85 9.500
Fit parameter 5 has pegged
16364.5 0 121.1 19.37 1.276 9.501
0.000 119.2 18.85 9.500
Fit parameter 5 has pegged
16364.2 0 121.1 19.37 1.276 9.501
0.000 119.2 18.85 9.500
Fit parameter 5 has pegged
16363.7 0 121.1 19.37 1.275 9.501
0.000 119.2 18.84 9.500
Fit parameter 5 has pegged
16363.4 0 121.2 19.37 1.275 9.501
0.000 119.2 18.84 9.500
Fit parameter 5 has pegged
16363.1 0 121.2 19.37 1.275 9.501
0.000 119.2 18.84 9.500
Fit parameter 5 has pegged
16362.8 0 121.2 19.37 1.275 9.501
0.000 119.2 18.84 9.500
Fit parameter 5 has pegged
16362.5 0 121.2 19.37 1.275 9.501
0.000 119.2 18.84 9.500
Fit parameter 5 has pegged
16362.3 0 121.2 19.37 1.274 9.501
0.000 119.2 18.84 9.500
Fit parameter 5 has pegged
16362.0 0 121.2 19.37 1.274 9.501
0.000 119.2 18.83 9.500
Fit parameter 5 has pegged
16361.9 0 121.2 19.37 1.274 9.501
0.000 119.2 18.83 9.500
Fit parameter 5 has pegged
16361.7 0 121.2 19.37 1.274 9.501
0.000 119.2 18.83 9.500
Fit parameter 5 has pegged
16361.5 0 121.2 19.37 1.274 9.501
0.000 119.2 18.83 9.500
Fit parameter 5 has pegged
16361.3 0 121.2 19.37 1.274 9.501
0.000 119.2 18.83 9.500
Fit parameter 5 has pegged
16361.0 0 121.2 19.37 1.274 9.501
0.000 119.2 18.83 9.500
Fit parameter 5 has pegged
16361.0 0 121.2 19.37 1.273 9.501
0.000 119.2 18.83 9.500
Fit parameter 5 has pegged
16360.7 0 121.2 19.37 1.273 9.501
0.000 119.2 18.82 9.500
Fit parameter 5 has pegged
16360.6 0 121.2 19.37 1.273 9.501
0.000 119.2 18.82 9.500
Fit parameter 5 has pegged
16360.5 0 121.2 19.37 1.273 9.501
0.000 119.3 18.82 9.500
Fit parameter 5 has pegged
16360.5 1 121.2 19.37 1.273 9.501
0.000 119.3 18.82 9.500
16360.2 0 121.2 19.37 1.273 9.501
0.000 119.3 18.83 9.500
Fit parameter 5 has pegged
16360.1 0 121.2 19.37 1.273 9.501
0.000 119.3 18.82 9.500
Fit parameter 5 has pegged
16360.0 0 121.2 19.37 1.273 9.501
0.000 119.3 18.82 9.500
Fit parameter 5 has pegged
16359.9 0 121.2 19.37 1.273 9.501
0.000 119.3 18.82 9.500
Fit parameter 5 has pegged
16359.8 0 121.2 19.37 1.272 9.501
0.000 119.3 18.82 9.500
Fit parameter 5 has pegged
16359.7 0 121.2 19.37 1.272 9.501
0.000 119.3 18.82 9.500
Fit parameter 5 has pegged
16359.7 0 121.2 19.37 1.272 9.501
0.000 119.3 18.81 9.500
Fit parameter 5 has pegged
16359.6 0 121.3 19.37 1.272 9.501
0.000 119.3 18.81 9.500
Fit parameter 5 has pegged
16359.6 0 121.3 19.37 1.272 9.501
0.000 119.3 18.81 9.500
16359.4 3 121.3 19.37 1.272 9.501
0.000 119.3 18.82 9.500
Fit parameter 5 has pegged
16359.4 3 121.3 19.37 1.272 9.501
0.000 119.3 18.82 9.500
Fit parameter 5 has pegged
16359.4 4 121.3 19.37 1.272 9.501
0.000 119.3 18.82 9.500
16359.4 4 121.3 19.37 1.272 9.501
0.000 119.3 18.82 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.80E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.13E-02 | 0.13 0.00 0.01 -0.95 -0.27
1.53E-02 | -0.99 -0.06 0.01 -0.12 -0.07
2.07E+00 | -0.06 1.00 0.00 -0.02 0.05
1.35E-01 | -0.03 -0.05 0.00 -0.28 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 121.261 +/- 0.148760 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.43634 1
3 3 1 gaussian norm 1.27211 +/- 0.528543E-02 1
4 4 2 powerlaw PhoIndex 9.50066 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 119.296 +/- 0.148068 2
7 7 3 gaussian Sigma keV 18.8199 +/- 0.359605 2
8 3 3 gaussian norm 1.27211 = 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 = 16359.40 using 198 PHA bins.
Reduced chi-squared = 86.10211 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 ( 83.043) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 83.043) > 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 1.099 photons ( 2.2210E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.078 photons ( 2.1507E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:24 12-Jun-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 3.624 +/- 7.1358E-03
Net count rate (cts/s) for file 2 3.624 +/- 7.1358E-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 = 384393.1 using 168 PHA bins.
Reduced chi-squared = 2402.457 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 25377.36 using 168 PHA bins.
Reduced chi-squared = 158.6085 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6362.27 -3 85.71 13.21 0.1795 1.007
0.7840 86.31 11.96 0.9983
1183.57 -4 75.43 12.12 0.1931 0.9358
0.7313 79.07 11.17 0.9393
985.840 -5 81.00 9.662 0.1812 1.014
0.9591 81.73 9.919 1.013
791.628 -6 78.48 10.92 0.2048 0.9984
0.9252 81.06 12.82 1.000
617.415 -7 79.09 9.770 0.1831 0.9838
0.8871 81.15 9.737 0.9857
596.167 -1 78.73 9.404 0.1962 0.9855
0.8823 81.10 11.04 0.9872
567.177 -2 78.67 9.523 0.1994 0.9874
0.8859 81.02 10.06 0.9889
566.172 -3 78.70 9.564 0.2016 0.9928
0.9043 81.07 10.45 0.9943
565.212 -4 78.72 9.548 0.2013 0.9942
0.9105 81.08 10.26 0.9958
565.179 -5 78.72 9.565 0.2017 0.9946
0.9119 81.08 10.30 0.9962
565.177 -6 78.72 9.559 0.2016 0.9945
0.9118 81.08 10.29 0.9962
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.99E-07 | 0.00 0.00 -0.26 0.67 -0.34 0.00 0.00 0.61
8.46E-07 | 0.00 0.00 -0.01 -0.68 -0.01 0.00 0.00 0.73
7.16E-06 | 0.00 0.01 -0.97 -0.16 0.11 0.00 0.05 -0.17
9.45E-04 | 0.02 -0.03 0.03 -0.13 -0.51 0.03 0.84 -0.12
1.28E-03 | -0.03 -0.06 0.04 0.22 0.78 -0.02 0.54 0.21
3.50E-02 | 0.80 0.59 0.01 0.01 0.04 -0.11 0.04 0.01
4.67E-02 | 0.36 -0.32 0.00 0.01 0.03 0.88 -0.03 0.01
3.98E-02 | 0.48 -0.74 -0.01 -0.01 -0.02 -0.47 -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 78.7183 +/- 0.193828 1
2 2 1 gaussian Sigma keV 9.55911 +/- 0.196696 1
3 3 1 gaussian norm 0.201595 +/- 0.383553E-02 1
4 4 2 powerlaw PhoIndex 0.994515 +/- 0.948632E-02 1
5 5 2 powerlaw norm 0.911751 +/- 0.342537E-01 1
6 6 3 gaussian LineE keV 81.0787 +/- 0.211990 2
7 7 3 gaussian Sigma keV 10.2907 +/- 0.346058E-01 2
8 3 3 gaussian norm 0.201595 = par 3 2
9 8 4 powerlaw PhoIndex 0.996154 +/- 0.911839E-02 2
10 5 4 powerlaw norm 0.911751 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 565.1774 using 168 PHA bins.
Reduced chi-squared = 3.532359 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 ( 3.384) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.384) > 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 1.254 photons ( 1.5036E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.246 photons ( 1.5023E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
100.1945
=====best line=====
78.7178 0.193779
=====best sigma=====
9.56014 0.196630
=====norm=====
0.201611 0.383398E-02
=====phoindx=====
0.994528 0.948573E-02
=====pow_norm=====
0.911788 0.342514E-01
=====best line=====
81.0789 0.211868
=====best sigma=====
10.2917 0.348670E-01
=====norm=====
0.201611 par
=====phoindx=====
0.996167 0.911780E-02
=====pow_norm=====
0.911788 par
=====redu_chi=====
3.532361
=====area_flux=====
1.254
=====area_flux_f=====
1.246
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 1 1 640 2000 1259.4848 0 0.201611 0.383398E-02 9.56014 0.196630 0.994528 0.948573E-02 0.911788 0.342514E-01 1.254 640 2000 1297.2624 0 0.201611 0.383398E-02 10.2917 0.348670E-01 0.996167 0.911780E-02 0.911788 0.342514E-01 1.246 3.532361 1
=====redu_chi=====
543.2071
=====best line=====
121.261 0.148760
=====best sigma=====
19.3655 1.43634
=====norm=====
1.27211 0.528543E-02
=====phoindx=====
9.50066 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.296 0.148068
=====best sigma=====
18.8199 0.359605
=====norm=====
1.27211 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
86.10211
=====area_flux=====
1.099
=====area_flux_f=====
1.078
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 1 1 1600 3200 1940.176 0 1.27211 0.528543E-02 309.848 22.98144 9.50066 -1.00000 0.00000 -1.00000 1.099 1600 3200 1908.736 0 1.27211 0.528543E-02 301.1184 5.75368 9.50000 -1.00000 0.00000 -1.00000 1.078 86.10211 1
=====redu_chi=====
158.6085
=====best line=====
78.7183 0.193828
=====best sigma=====
9.55911 0.196696
=====norm=====
0.201595 0.383553E-02
=====phoindx=====
0.994515 0.948632E-02
=====pow_norm=====
0.911751 0.342537E-01
=====best line=====
81.0787 0.211990
=====best sigma=====
10.2907 0.346058E-01
=====norm=====
0.201595 par
=====phoindx=====
0.996154 0.911839E-02
=====pow_norm=====
0.911751 par
=====redu_chi=====
3.532359
=====area_flux=====
1.254
=====area_flux_f=====
1.246
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 1 1 640 2000 1259.4928 0 0.201595 0.383553E-02 9.55911 0.196696 0.994515 0.948632E-02 0.911751 0.342537E-01 1.254 640 2000 1297.2592 0 0.201595 0.383553E-02 10.2907 0.346058E-01 0.996154 0.911839E-02 0.911751 0.342537E-01 1.246 3.532359 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:24 12-Jun-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 3.319 +/- 6.8293E-03
Net count rate (cts/s) for file 2 3.319 +/- 6.8293E-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 = 328914.7 using 168 PHA bins.
Reduced chi-squared = 2055.717 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21026.89 using 168 PHA bins.
Reduced chi-squared = 131.4180 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8309.54 -3 82.20 16.83 0.2793 1.047
0.8358 82.60 16.67 1.041
1060.84 -3 73.72 9.327 0.2077 0.8614
0.5201 74.77 9.670 0.8706
1058.17 -3 75.16 9.276 0.2058 0.9385
0.6976 76.26 11.51 0.9376
658.477 -4 75.30 9.316 0.2059 0.9646
0.8142 76.74 9.958 0.9656
643.492 -5 75.29 9.439 0.2098 0.9622
0.8176 76.56 10.89 0.9648
627.633 -6 75.32 9.355 0.2076 0.9624
0.8198 76.62 10.02 0.9650
627.460 -7 75.29 9.427 0.2095 0.9621
0.8176 76.56 10.31 0.9648
626.934 -8 75.31 9.396 0.2089 0.9622
0.8184 76.58 10.16 0.9649
626.917 -9 75.30 9.411 0.2092 0.9621
0.8180 76.57 10.18 0.9648
626.917 0 75.30 9.409 0.2092 0.9621
0.8180 76.57 10.18 0.9648
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.63E-07 | 0.00 0.00 -0.24 0.67 -0.37 0.00 0.00 0.60
8.22E-07 | 0.00 0.00 -0.02 -0.67 -0.01 0.00 0.00 0.74
7.63E-06 | 0.00 0.01 -0.97 -0.15 0.10 0.00 0.04 -0.16
8.89E-04 | 0.04 0.00 -0.01 -0.28 -0.92 0.04 0.09 -0.26
1.43E-03 | 0.00 0.07 -0.04 -0.03 -0.07 -0.02 -0.99 -0.03
3.22E-02 | 0.73 0.69 0.01 0.01 0.03 -0.02 0.05 0.01
4.74E-02 | 0.39 -0.39 -0.01 0.01 0.04 0.83 -0.05 0.01
3.78E-02 | -0.57 0.61 0.01 0.00 0.00 0.55 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 75.3049 +/- 0.190339 1
2 2 1 gaussian Sigma keV 9.40906 +/- 0.190803 1
3 3 1 gaussian norm 0.209225 +/- 0.385776E-02 1
4 4 2 powerlaw PhoIndex 0.962122 +/- 0.889176E-02 1
5 5 2 powerlaw norm 0.817977 +/- 0.293926E-01 1
6 6 3 gaussian LineE keV 76.5689 +/- 0.210669 2
7 7 3 gaussian Sigma keV 10.1784 +/- 0.405370E-01 2
8 3 3 gaussian norm 0.209225 = par 3 2
9 8 4 powerlaw PhoIndex 0.964814 +/- 0.853859E-02 2
10 5 4 powerlaw norm 0.817977 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 626.9166 using 168 PHA bins.
Reduced chi-squared = 3.918229 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 ( 3.754) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.754) > 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 1.293 photons ( 1.5432E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.280 photons ( 1.5324E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:25 12-Jun-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 7.512 +/- 1.0274E-02
Net count rate (cts/s) for file 2 7.512 +/- 1.0274E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.193 +/- 1.2337E-02( 55.8% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.193 +/- 1.2337E-02( 55.8% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.3238609E+07 using 198 PHA bins.
Reduced chi-squared = 69676.89 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 79123.20 using 198 PHA bins.
Reduced chi-squared = 416.4379 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
50482.9 -3 107.1 18.21 0.4046 2.777
9.9966E-02 97.78 18.27 2.714
27240.9 -2 92.22 19.18 1.792 8.642
1.0473E-02 98.54 19.29 7.799
25069.2 -1 94.77 19.32 1.744 9.444
6.2772E-04 99.52 19.35 9.059
23429.7 -1 97.28 19.35 1.720 9.485
2.0882E-04 100.5 19.36 9.457
21739.8 -1 99.64 19.36 1.673 2.237
1.2959E-05 101.6 19.37 9.486
19898.6 -1 101.8 19.37 1.607 7.064
11.71 103.1 19.37 9.494
18304.0 -1 103.9 19.37 1.556 9.096
3.353 104.5 19.37 9.499
16526.4 -1 106.0 19.37 1.483 9.445
1.065 106.1 19.37 9.500
15104.0 -1 108.0 19.37 1.418 9.494
0.4655 107.8 19.37 9.500
14214.4 -1 109.6 19.37 1.363 9.499
9.5859E-02 109.2 19.37 9.500
14118.8 -2 110.3 19.37 1.358 9.499
1.7053E-02 109.8 19.37 9.500
13656.9 -1 111.3 19.37 1.303 9.500
4.9860E-03 110.7 19.37 9.500
13571.0 -1 112.1 19.37 1.271 9.500
1.0159E-03 111.5 19.37 9.500
13212.8 0 112.7 19.37 1.242 9.500
3.8847E-04 111.5 19.26 9.500
13052.2 0 113.1 19.37 1.223 9.500
6.2296E-05 111.6 19.18 9.500
12963.4 0 113.5 19.37 1.209 9.500
2.0625E-05 111.8 19.11 9.500
12915.3 0 113.8 19.37 1.199 9.500
1.0190E-05 112.0 19.04 9.500
12879.7 0 114.0 19.37 1.192 9.500
4.9847E-06 112.1 18.97 9.500
12627.5 0 114.4 19.37 1.172 9.500
3.1094E-07 112.5 18.57 9.500
12609.2 0 114.4 19.37 1.167 9.500
9.3665E-08 112.6 18.51 9.500
12597.8 0 114.4 19.37 1.163 9.500
3.9490E-08 112.8 18.45 9.500
12587.6 0 114.5 19.37 1.160 9.500
1.2535E-08 112.9 18.41 9.500
12580.9 0 114.5 19.37 1.158 9.500
5.7969E-09 113.0 18.37 9.500
12574.7 0 114.5 19.37 1.156 9.500
2.4388E-09 113.1 18.33 9.500
12569.7 0 114.6 19.37 1.154 9.500
7.6529E-10 113.2 18.30 9.500
12566.6 0 114.6 19.37 1.152 9.500
3.4762E-10 113.2 18.27 9.500
12563.2 0 114.6 19.37 1.150 9.500
1.3925E-10 113.3 18.25 9.500
12561.6 0 114.7 19.37 1.149 9.500
3.5141E-11 113.3 18.23 9.500
12559.7 0 114.7 19.37 1.148 9.500
9.1293E-12 113.4 18.21 9.500
12558.1 0 114.7 19.37 1.147 9.500
2.6375E-12 113.4 18.20 9.500
12557.4 0 114.7 19.37 1.147 9.500
1.0139E-12 113.4 18.19 9.500
12556.4 0 114.7 19.37 1.146 9.500
2.0328E-13 113.5 18.18 9.500
Fit parameter 5 has pegged
12530.2 -1 114.8 18.69 1.124 9.500
0.000 113.6 17.14 9.500
Fit parameter 5 has pegged
12414.2 -2 114.4 19.18 1.139 9.500
0.000 113.4 17.79 9.500
Fit parameter 5 has pegged
12404.6 -3 114.8 19.09 1.120 9.500
0.000 113.7 17.44 9.500
Fit parameter 5 has pegged
12400.8 -4 114.8 19.10 1.123 9.500
0.000 113.7 17.61 9.500
Fit parameter 5 has pegged
12400.2 -5 114.8 19.07 1.120 9.500
0.000 113.8 17.51 9.500
Fit parameter 5 has pegged
12400.0 -6 114.8 19.08 1.121 9.500
0.000 113.7 17.56 9.500
Fit parameter 5 has pegged
12399.9 -7 114.8 19.08 1.120 9.500
0.000 113.7 17.54 9.500
Fit parameter 5 has pegged
12399.8 -8 114.9 19.07 1.120 9.500
0.000 113.7 17.55 9.500
Fit parameter 5 has pegged
12399.8 -3 114.8 19.09 1.121 9.500
0.000 113.7 17.55 9.500
12399.8 0 114.8 19.09 1.121 9.500
0.000 113.7 17.55 9.500
Fit parameter 5 has pegged
12399.8 4 114.8 19.09 1.121 9.500
0.000 113.7 17.55 9.500
12399.8 6 114.8 19.09 1.121 9.500
0.000 113.7 17.55 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.84E-05 | -0.01 0.00 -1.00 -0.01 0.01
3.97E-03 | 0.01 0.00 0.00 0.41 0.91
1.75E-02 | -0.95 -0.16 0.01 0.25 -0.10
5.72E-01 | 0.19 -0.98 0.00 0.07 -0.03
3.34E-02 | -0.25 -0.12 0.02 -0.88 0.39
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.830 +/- 0.193733 1
2 2 1 gaussian Sigma keV 19.0862 +/- 0.741358 1
3 3 1 gaussian norm 1.12071 +/- 0.610772E-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 113.737 +/- 0.173577 2
7 7 3 gaussian Sigma keV 17.5477 +/- 0.965029E-01 2
8 3 3 gaussian norm 1.12071 = 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 = 12399.76 using 198 PHA bins.
Reduced chi-squared = 65.26192 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 ( 62.943) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 62.943) > 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 0.8757 photons ( 1.7122E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8776 photons ( 1.6917E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:25 12-Jun-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 3.319 +/- 6.8293E-03
Net count rate (cts/s) for file 2 3.319 +/- 6.8293E-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 = 406400.1 using 168 PHA bins.
Reduced chi-squared = 2540.000 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 33219.22 using 168 PHA bins.
Reduced chi-squared = 207.6201 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
13159.5 -3 85.48 14.56 0.1842 1.055
0.8747 85.58 14.09 1.046
2415.23 -4 69.86 17.25 0.2702 0.9484
0.7533 71.70 16.75 0.9554
1797.96 -1 77.60 6.917 0.2225 0.9517
0.7589 77.29 8.650 0.9531
665.581 -2 76.22 8.958 0.2025 0.9530
0.7904 76.75 9.868 0.9555
651.641 -1 75.33 9.515 0.2080 0.9537
0.7898 76.54 10.96 0.9563
628.388 -2 75.30 9.342 0.2072 0.9555
0.7964 76.57 10.00 0.9581
627.872 -3 75.28 9.424 0.2094 0.9604
0.8112 76.55 10.34 0.9629
626.951 -4 75.31 9.393 0.2089 0.9622
0.8181 76.58 10.15 0.9648
626.917 -5 75.30 9.411 0.2092 0.9621
0.8180 76.57 10.18 0.9648
626.917 0 75.30 9.410 0.2092 0.9621
0.8180 76.57 10.18 0.9648
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.63E-07 | 0.00 0.00 -0.24 0.67 -0.37 0.00 0.00 0.60
8.22E-07 | 0.00 0.00 -0.02 -0.67 -0.01 0.00 0.00 0.74
7.63E-06 | 0.00 0.01 -0.97 -0.15 0.10 0.00 0.04 -0.16
8.89E-04 | 0.04 0.00 -0.01 -0.28 -0.92 0.04 0.09 -0.26
1.43E-03 | 0.00 0.07 -0.04 -0.03 -0.08 -0.02 -0.99 -0.03
3.22E-02 | 0.73 0.69 0.01 0.01 0.03 -0.02 0.05 0.01
4.74E-02 | 0.39 -0.39 -0.01 0.01 0.04 0.83 -0.05 0.01
3.78E-02 | -0.57 0.61 0.01 0.00 0.00 0.55 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 75.3048 +/- 0.190349 1
2 2 1 gaussian Sigma keV 9.40950 +/- 0.190820 1
3 3 1 gaussian norm 0.209236 +/- 0.385816E-02 1
4 4 2 powerlaw PhoIndex 0.962122 +/- 0.889211E-02 1
5 5 2 powerlaw norm 0.817962 +/- 0.293932E-01 1
6 6 3 gaussian LineE keV 76.5687 +/- 0.210712 2
7 7 3 gaussian Sigma keV 10.1792 +/- 0.404338E-01 2
8 3 3 gaussian norm 0.209236 = par 3 2
9 8 4 powerlaw PhoIndex 0.964812 +/- 0.853895E-02 2
10 5 4 powerlaw norm 0.817962 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 626.9166 using 168 PHA bins.
Reduced chi-squared = 3.918229 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 ( 3.754) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.754) > 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 1.293 photons ( 1.5432E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.280 photons ( 1.5324E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
131.4180
=====best line=====
75.3049 0.190339
=====best sigma=====
9.40906 0.190803
=====norm=====
0.209225 0.385776E-02
=====phoindx=====
0.962122 0.889176E-02
=====pow_norm=====
0.817977 0.293926E-01
=====best line=====
76.5689 0.210669
=====best sigma=====
10.1784 0.405370E-01
=====norm=====
0.209225 par
=====phoindx=====
0.964814 0.853859E-02
=====pow_norm=====
0.817977 par
=====redu_chi=====
3.918229
=====area_flux=====
1.293
=====area_flux_f=====
1.280
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 2 1 640 2000 1204.8784 0 0.209225 0.385776E-02 9.40906 0.190803 0.962122 0.889176E-02 0.817977 0.293926E-01 1.293 640 2000 1225.1024 0 0.209225 0.385776E-02 10.1784 0.405370E-01 0.964814 0.853859E-02 0.817977 0.293926E-01 1.280 3.918229 1
=====redu_chi=====
416.4379
=====best line=====
114.830 0.193733
=====best sigma=====
19.0862 0.741358
=====norm=====
1.12071 0.610772E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.737 0.173577
=====best sigma=====
17.5477 0.965029E-01
=====norm=====
1.12071 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
65.26192
=====area_flux=====
0.8757
=====area_flux_f=====
0.8776
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 2 1 1600 3200 1837.28 0 1.12071 0.610772E-02 305.3792 11.861728 9.50000 -1.00000 0.00000 -1.00000 0.8757 1600 3200 1819.792 0 1.12071 0.610772E-02 280.7632 1.5440464 9.50000 -1.00000 0.00000 -1.00000 0.8776 65.26192 1
=====redu_chi=====
207.6201
=====best line=====
75.3048 0.190349
=====best sigma=====
9.40950 0.190820
=====norm=====
0.209236 0.385816E-02
=====phoindx=====
0.962122 0.889211E-02
=====pow_norm=====
0.817962 0.293932E-01
=====best line=====
76.5687 0.210712
=====best sigma=====
10.1792 0.404338E-01
=====norm=====
0.209236 par
=====phoindx=====
0.964812 0.853895E-02
=====pow_norm=====
0.817962 par
=====redu_chi=====
3.918229
=====area_flux=====
1.293
=====area_flux_f=====
1.280
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 2 1 640 2000 1204.8768 0 0.209236 0.385816E-02 9.40950 0.190820 0.962122 0.889211E-02 0.817962 0.293932E-01 1.293 640 2000 1225.0992 0 0.209236 0.385816E-02 10.1792 0.404338E-01 0.964812 0.853895E-02 0.817962 0.293932E-01 1.280 3.918229 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:25 12-Jun-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 3.409 +/- 6.9205E-03
Net count rate (cts/s) for file 2 3.409 +/- 6.9205E-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 = 342595.1 using 168 PHA bins.
Reduced chi-squared = 2141.219 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 24697.03 using 168 PHA bins.
Reduced chi-squared = 154.3564 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
15667.3 -3 81.89 17.12 0.2728 1.110
0.9473 82.28 16.87 1.099
1933.20 -3 70.42 16.67 0.2577 0.8908
0.6037 72.40 15.80 0.9018
1574.75 -2 74.81 5.230 0.1463 0.9168
0.6913 75.55 8.033 0.9138
868.919 -3 73.98 8.115 0.1817 0.9897
0.9019 75.80 9.429 0.9884
548.631 -4 73.36 9.227 0.2058 1.010
1.004 75.65 9.852 1.010
537.315 -5 73.50 8.897 0.2033 1.009
1.012 75.67 9.719 1.011
537.063 -6 73.44 8.991 0.2045 1.009
1.009 75.66 9.763 1.010
537.043 -7 73.46 8.963 0.2042 1.009
1.010 75.66 9.750 1.010
537.042 -8 73.45 8.971 0.2043 1.009
1.010 75.66 9.754 1.010
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.84E-07 | 0.00 0.00 -0.24 0.68 -0.31 0.00 0.00 0.62
8.06E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.73
7.35E-06 | 0.00 0.01 -0.97 -0.16 0.08 0.00 0.01 -0.17
1.25E-03 | 0.05 0.00 -0.01 -0.23 -0.95 0.04 0.00 -0.22
2.41E-02 | -0.20 -0.79 0.00 0.00 0.00 0.08 0.57 0.00
5.44E-02 | 0.26 -0.50 -0.01 0.00 0.03 0.47 -0.68 0.00
3.28E-02 | -0.95 0.03 0.00 -0.01 -0.04 0.13 -0.30 -0.01
3.81E-02 | -0.01 -0.34 -0.01 -0.01 -0.04 -0.87 -0.36 -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 73.4529 +/- 0.183845 1
2 2 1 gaussian Sigma keV 8.97107 +/- 0.182642 1
3 3 1 gaussian norm 0.204298 +/- 0.370065E-02 1
4 4 2 powerlaw PhoIndex 1.00883 +/- 0.867215E-02 1
5 5 2 powerlaw norm 1.00955 +/- 0.355120E-01 1
6 6 3 gaussian LineE keV 75.6618 +/- 0.203630 2
7 7 3 gaussian Sigma keV 9.75400 +/- 0.201448 2
8 3 3 gaussian norm 0.204298 = par 3 2
9 8 4 powerlaw PhoIndex 1.01017 +/- 0.832634E-02 2
10 5 4 powerlaw norm 1.00955 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 537.0417 using 168 PHA bins.
Reduced chi-squared = 3.356511 for 160 degrees of freedom
Null hypothesis probability = 2.957E-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 ( 3.216) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.216) > 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 1.301 photons ( 1.5402E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.294 photons ( 1.5398E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:26 12-Jun-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 8.117 +/- 1.0680E-02
Net count rate (cts/s) for file 2 8.117 +/- 1.0680E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.709 +/- 1.2726E-02( 58.0% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.709 +/- 1.2726E-02( 58.0% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.3383399E+07 using 198 PHA bins.
Reduced chi-squared = 70438.95 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 97313.30 using 198 PHA bins.
Reduced chi-squared = 512.1752 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
56540.2 -3 111.9 18.52 0.4669 2.746
0.1048 102.6 18.52 2.684
56414.3 2 111.9 18.52 0.4679 2.572
0.1790 102.6 18.52 2.576
55147.0 1 112.2 18.46 0.4773 2.207
0.5195 103.2 18.52 2.245
45075.4 0 114.6 17.82 0.5585 2.119
0.7925 108.1 18.41 2.149
23963.8 0 119.5 17.44 0.8938 2.214
0.2231 119.2 12.36 2.390
16682.0 -1 116.5 18.61 1.202 6.660
9.5984E-02 116.4 16.65 2.493
16529.4 -2 114.5 19.13 1.298 9.052
2.1552E-02 114.3 17.85 7.335
16487.7 0 114.5 19.11 1.296 9.417
4.7043E-03 114.2 17.81 9.404
16458.8 0 114.5 19.11 1.294 9.462
9.7698E-04 114.1 17.79 9.460
16437.5 0 114.5 19.10 1.292 9.495
1.7344E-04 114.1 17.76 9.483
16421.7 0 114.5 19.10 1.291 9.499
5.1225E-05 114.0 17.74 9.492
16409.7 0 114.4 19.09 1.290 9.499
1.9499E-05 114.0 17.73 9.499
16400.6 0 114.4 19.09 1.289 9.500
3.2854E-06 114.0 17.72 9.500
16393.8 0 114.4 19.09 1.288 9.500
1.2692E-06 113.9 17.71 9.500
16388.4 0 114.4 19.08 1.287 9.500
2.6796E-07 113.9 17.70 9.500
16384.2 0 114.4 19.08 1.287 9.500
1.9147E-08 113.9 17.69 9.500
16374.1 0 114.4 19.07 1.285 9.500
6.5440E-10 113.8 17.68 9.500
16370.8 0 114.4 19.07 1.284 9.500
1.3503E-10 113.8 17.67 9.500
16368.5 0 114.4 19.06 1.284 9.500
5.9207E-12 113.8 17.66 9.500
16366.7 0 114.4 19.06 1.283 9.500
1.9060E-12 113.8 17.65 9.500
16365.4 0 114.4 19.06 1.283 9.500
9.0620E-13 113.8 17.65 9.500
16364.2 0 114.4 19.06 1.283 9.500
4.0804E-13 113.8 17.65 9.500
16363.3 0 114.4 19.05 1.282 9.500
1.5966E-13 113.8 17.64 9.500
16362.7 0 114.4 19.05 1.282 9.500
3.5755E-14 113.7 17.64 9.500
Fit parameter 5 has pegged
16357.0 0 114.5 19.01 1.280 9.500
0.000 113.7 17.59 9.500
Fit parameter 5 has pegged
16355.7 -1 114.6 18.98 1.276 9.500
0.000 113.7 17.56 9.500
Fit parameter 5 has pegged
16355.5 -2 114.7 18.93 1.273 9.500
0.000 113.8 17.55 9.500
Fit parameter 5 has pegged
16355.5 4 114.7 18.93 1.273 9.500
0.000 113.8 17.55 9.500
16355.5 4 114.7 18.93 1.273 9.500
0.000 113.8 17.55 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.96E-05 | -0.01 0.00 -1.00 -0.01 0.01
3.14E-03 | 0.01 0.00 0.01 0.40 0.92
1.36E-02 | -0.94 -0.23 0.01 0.22 -0.08
2.49E-01 | 0.27 -0.96 -0.01 0.10 -0.05
2.71E-02 | -0.20 -0.17 0.02 -0.88 0.39
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.652 +/- 0.175890 1
2 2 1 gaussian Sigma keV 18.9309 +/- 0.478856 1
3 3 1 gaussian norm 1.27287 +/- 0.631603E-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 113.752 +/- 0.158260 2
7 7 3 gaussian Sigma keV 17.5473 +/- 0.863438E-01 2
8 3 3 gaussian norm 1.27287 = 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 = 16355.48 using 198 PHA bins.
Reduced chi-squared = 86.08145 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 ( 83.023) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 83.023) > 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 0.9934 photons ( 1.9390E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9970 photons ( 1.9222E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:26 12-Jun-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 3.409 +/- 6.9205E-03
Net count rate (cts/s) for file 2 3.409 +/- 6.9205E-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 = 429733.1 using 168 PHA bins.
Reduced chi-squared = 2685.832 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 37992.90 using 168 PHA bins.
Reduced chi-squared = 237.4556 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
25674.7 -3 85.52 14.97 0.1708 1.130
0.9949 85.42 14.36 1.113
3699.99 -4 65.78 18.45 0.3064 1.023
1.075 68.66 17.81 1.031
1752.35 0 70.53 15.55 0.2902 1.030
1.048 72.26 16.38 1.035
715.932 -1 74.56 9.409 0.2270 1.028
1.063 75.92 9.189 1.030
540.736 -2 73.61 9.141 0.2060 1.021
1.063 75.77 9.730 1.023
537.308 -3 73.49 8.956 0.2041 1.012
1.024 75.69 9.746 1.014
537.061 -4 73.45 8.977 0.2044 1.009
1.010 75.66 9.756 1.010
537.042 -5 73.46 8.967 0.2043 1.009
1.010 75.66 9.752 1.010
537.042 -6 73.45 8.970 0.2043 1.009
1.010 75.66 9.753 1.010
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.84E-07 | 0.00 0.00 -0.24 0.68 -0.31 0.00 0.00 0.62
8.06E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.73
7.36E-06 | 0.00 0.01 -0.97 -0.16 0.08 0.00 0.01 -0.17
1.25E-03 | 0.05 0.00 -0.01 -0.23 -0.95 0.04 0.00 -0.22
2.41E-02 | -0.19 -0.79 0.00 0.00 0.00 0.08 0.57 0.00
5.44E-02 | 0.26 -0.50 -0.01 0.00 0.03 0.47 -0.68 0.00
3.28E-02 | -0.94 0.03 0.00 -0.01 -0.04 0.13 -0.30 -0.01
3.81E-02 | -0.01 -0.34 -0.01 -0.01 -0.04 -0.87 -0.36 -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 73.4537 +/- 0.183925 1
2 2 1 gaussian Sigma keV 8.96985 +/- 0.182728 1
3 3 1 gaussian norm 0.204283 +/- 0.370211E-02 1
4 4 2 powerlaw PhoIndex 1.00883 +/- 0.867280E-02 1
5 5 2 powerlaw norm 1.00959 +/- 0.355115E-01 1
6 6 3 gaussian LineE keV 75.6621 +/- 0.203644 2
7 7 3 gaussian Sigma keV 9.75346 +/- 0.201478 2
8 3 3 gaussian norm 0.204283 = par 3 2
9 8 4 powerlaw PhoIndex 1.01018 +/- 0.832700E-02 2
10 5 4 powerlaw norm 1.00959 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 537.0418 using 168 PHA bins.
Reduced chi-squared = 3.356511 for 160 degrees of freedom
Null hypothesis probability = 2.957E-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 ( 3.216) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.216) > 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 1.301 photons ( 1.5401E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.294 photons ( 1.5398E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
154.3564
=====best line=====
73.4529 0.183845
=====best sigma=====
8.97107 0.182642
=====norm=====
0.204298 0.370065E-02
=====phoindx=====
1.00883 0.867215E-02
=====pow_norm=====
1.00955 0.355120E-01
=====best line=====
75.6618 0.203630
=====best sigma=====
9.75400 0.201448
=====norm=====
0.204298 par
=====phoindx=====
1.01017 0.832634E-02
=====pow_norm=====
1.00955 par
=====redu_chi=====
3.356511
=====area_flux=====
1.301
=====area_flux_f=====
1.294
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 3 1 640 2000 1175.2464 0 0.204298 0.370065E-02 8.97107 0.182642 1.00883 0.867215E-02 1.00955 0.355120E-01 1.301 640 2000 1210.5888 0 0.204298 0.370065E-02 9.75400 0.201448 1.01017 0.832634E-02 1.00955 0.355120E-01 1.294 3.356511 1
=====redu_chi=====
512.1752
=====best line=====
114.652 0.175890
=====best sigma=====
18.9309 0.478856
=====norm=====
1.27287 0.631603E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.752 0.158260
=====best sigma=====
17.5473 0.863438E-01
=====norm=====
1.27287 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
86.08145
=====area_flux=====
0.9934
=====area_flux_f=====
0.9970
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 3 1 1600 3200 1834.432 0 1.27287 0.631603E-02 302.8944 7.661696 9.50000 -1.00000 0.00000 -1.00000 0.9934 1600 3200 1820.032 0 1.27287 0.631603E-02 280.7568 1.3815008 9.50000 -1.00000 0.00000 -1.00000 0.9970 86.08145 1
=====redu_chi=====
237.4556
=====best line=====
73.4537 0.183925
=====best sigma=====
8.96985 0.182728
=====norm=====
0.204283 0.370211E-02
=====phoindx=====
1.00883 0.867280E-02
=====pow_norm=====
1.00959 0.355115E-01
=====best line=====
75.6621 0.203644
=====best sigma=====
9.75346 0.201478
=====norm=====
0.204283 par
=====phoindx=====
1.01018 0.832700E-02
=====pow_norm=====
1.00959 par
=====redu_chi=====
3.356511
=====area_flux=====
1.301
=====area_flux_f=====
1.294
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 3 1 640 2000 1175.2592 0 0.204283 0.370211E-02 8.96985 0.182728 1.00883 0.867280E-02 1.00959 0.355115E-01 1.301 640 2000 1210.5936 0 0.204283 0.370211E-02 9.75346 0.201478 1.01018 0.832700E-02 1.00959 0.355115E-01 1.294 3.356511 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:26 12-Jun-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 3.164 +/- 6.6673E-03
Net count rate (cts/s) for file 2 3.164 +/- 6.6673E-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 = 255333.3 using 168 PHA bins.
Reduced chi-squared = 1595.833 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7666.277 using 168 PHA bins.
Reduced chi-squared = 47.91423 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1007.58 -3 87.81 12.01 0.1804 0.8712
0.5814 88.99 11.67 0.8679
669.365 -4 85.65 11.12 0.2096 0.9296
0.6960 88.29 11.31 0.9274
610.871 -5 86.00 10.81 0.2072 0.9307
0.7173 88.40 11.29 0.9305
610.392 -6 85.92 10.99 0.2098 0.9336
0.7252 88.40 11.39 0.9335
610.299 -7 85.97 10.92 0.2087 0.9322
0.7220 88.41 11.34 0.9322
610.287 -8 85.95 10.95 0.2092 0.9329
0.7236 88.40 11.36 0.9329
610.281 -9 85.96 10.94 0.2090 0.9326
0.7229 88.40 11.35 0.9326
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.37E-07 | 0.00 0.00 -0.24 0.63 -0.41 0.00 0.00 0.61
8.21E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
7.77E-06 | 0.00 0.05 -0.97 -0.14 0.14 0.00 0.04 -0.14
7.75E-04 | 0.03 0.46 -0.01 -0.26 -0.78 0.03 0.21 -0.25
9.16E-04 | 0.00 0.65 0.01 0.06 0.16 -0.01 -0.74 0.05
3.34E-03 | 0.02 -0.60 -0.08 -0.16 -0.42 0.02 -0.64 -0.15
5.59E-02 | 0.49 0.01 0.00 0.02 0.04 0.87 0.00 0.01
4.79E-02 | 0.87 0.00 0.00 0.00 0.01 -0.49 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 85.9571 +/- 0.223037 1
2 2 1 gaussian Sigma keV 10.9355 +/- 0.418524E-01 1
3 3 1 gaussian norm 0.208963 +/- 0.529727E-02 1
4 4 2 powerlaw PhoIndex 0.932574 +/- 0.124909E-01 1
5 5 2 powerlaw norm 0.722875 +/- 0.346252E-01 1
6 6 3 gaussian LineE keV 88.4048 +/- 0.232055 2
7 7 3 gaussian Sigma keV 11.3513 +/- 0.436166E-01 2
8 3 3 gaussian norm 0.208963 = par 3 2
9 8 4 powerlaw PhoIndex 0.932576 +/- 0.120044E-01 2
10 5 4 powerlaw norm 0.722875 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 610.2808 using 168 PHA bins.
Reduced chi-squared = 3.814255 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 ( 3.654) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.654) > 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 1.295 photons ( 1.5853E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.295 photons ( 1.5932E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:26 12-Jun-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 7.654 +/- 1.0371E-02
Net count rate (cts/s) for file 2 7.654 +/- 1.0371E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.490 +/- 1.2329E-02( 58.7% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.490 +/- 1.2329E-02( 58.7% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 2299007. using 198 PHA bins.
Reduced chi-squared = 12100.04 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 127176.9 using 198 PHA bins.
Reduced chi-squared = 669.3522 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
66333.6 -3 123.6 19.28 0.6108 2.694
0.7374 128.3 19.24 2.874
44307.5 -4 117.5 19.33 1.981 8.790
567.8 120.2 19.33 8.749
38070.4 0 118.6 19.36 1.846 9.337
61.66 121.1 19.35 9.271
34610.5 0 119.8 19.37 1.767 9.492
29.99 122.2 19.36 9.441
33845.2 0 120.1 19.37 1.746 9.499
10.90 122.4 19.36 9.498
31940.7 0 121.2 19.37 1.706 9.500
3.718 123.4 19.37 9.499
30645.1 0 122.2 19.37 1.680 9.500
1.671 124.3 19.37 9.500
29751.6 0 123.0 19.37 1.661 9.500
0.5494 125.0 19.37 9.500
29138.1 0 123.7 19.37 1.648 9.500
0.2557 125.6 19.37 9.500
28704.9 0 124.2 19.37 1.639 9.500
9.9511E-02 126.0 19.37 9.500
28383.7 0 124.6 19.37 1.631 9.500
1.8208E-02 126.4 19.37 9.500
28159.7 0 125.0 19.37 1.625 9.500
7.8929E-03 126.7 19.37 9.500
27995.2 0 125.3 19.37 1.620 9.500
1.9048E-03 126.9 19.37 9.500
27875.1 0 125.5 19.37 1.617 9.500
7.6730E-04 127.1 19.37 9.500
27672.2 0 125.8 19.37 1.608 9.500
2.6224E-06 127.3 19.37 9.500
27559.0 0 126.0 19.37 1.603 9.500
1.7818E-07 127.4 19.37 9.500
27534.0 0 126.1 19.37 1.602 9.500
5.6644E-08 127.4 19.37 9.500
27512.0 0 126.2 19.37 1.601 9.500
2.5973E-08 127.4 19.37 9.500
27497.2 0 126.2 19.37 1.601 9.500
1.0672E-08 127.4 19.37 9.500
27478.8 0 126.3 19.37 1.600 9.500
2.9480E-09 127.4 19.37 9.500
27468.5 0 126.3 19.37 1.600 9.500
1.0222E-09 127.4 19.37 9.500
27459.8 0 126.3 19.37 1.599 9.500
6.0040E-11 127.4 19.37 9.500
27451.5 0 126.4 19.37 1.599 9.500
2.9720E-11 127.4 19.37 9.500
27439.8 0 126.4 19.37 1.598 9.500
1.4650E-11 127.5 19.37 9.500
27326.1 0 126.5 19.37 1.590 9.500
2.3248E-12 127.5 19.37 9.500
27227.3 0 126.5 19.37 1.582 9.500
7.8073E-13 127.5 19.37 9.500
27141.3 0 126.6 19.37 1.574 9.500
9.0040E-15 127.6 19.37 9.500
Fit parameter 5 has pegged
27000.3 0 126.7 19.37 1.561 9.500
0.000 127.6 19.37 9.500
Fit parameter 5 has pegged
26942.3 0 126.8 19.37 1.555 9.500
0.000 127.7 19.37 9.500
Fit parameter 5 has pegged
26891.2 0 126.9 19.37 1.550 9.500
0.000 127.7 19.37 9.500
Fit parameter 5 has pegged
26846.1 0 126.9 19.37 1.545 9.500
0.000 127.7 19.37 9.500
Fit parameter 5 has pegged
26806.0 0 127.0 19.37 1.541 9.500
0.000 127.8 19.37 9.500
Fit parameter 5 has pegged
26770.4 0 127.0 19.37 1.537 9.500
0.000 127.8 19.37 9.500
Fit parameter 5 has pegged
26738.5 0 127.1 19.37 1.533 9.500
0.000 127.8 19.37 9.500
Fit parameter 5 has pegged
26709.9 0 127.2 19.37 1.530 9.500
0.000 127.9 19.37 9.500
Fit parameter 5 has pegged
26684.3 0 127.2 19.37 1.526 9.500
0.000 127.9 19.37 9.500
Fit parameter 5 has pegged
26661.2 0 127.3 19.37 1.523 9.500
0.000 127.9 19.37 9.500
Fit parameter 5 has pegged
26640.2 0 127.3 19.37 1.521 9.500
0.000 128.0 19.37 9.500
Fit parameter 5 has pegged
26621.4 0 127.4 19.37 1.518 9.500
0.000 128.0 19.37 9.500
Fit parameter 5 has pegged
26604.4 0 127.4 19.37 1.516 9.500
0.000 128.0 19.37 9.500
Fit parameter 5 has pegged
26588.9 0 127.5 19.37 1.514 9.500
0.000 128.0 19.37 9.500
Fit parameter 5 has pegged
26574.7 0 127.5 19.37 1.512 9.500
0.000 128.1 19.37 9.500
Fit parameter 5 has pegged
26561.9 0 127.6 19.37 1.510 9.500
0.000 128.1 19.37 9.500
Fit parameter 5 has pegged
26550.2 0 127.6 19.37 1.508 9.500
0.000 128.1 19.37 9.500
Fit parameter 5 has pegged
26539.4 0 127.7 19.37 1.507 9.500
0.000 128.1 19.37 9.500
Fit parameter 5 has pegged
26529.6 0 127.7 19.37 1.505 9.500
0.000 128.1 19.37 9.500
Fit parameter 5 has pegged
26520.5 0 127.7 19.37 1.504 9.500
0.000 128.2 19.37 9.500
Fit parameter 5 has pegged
26512.2 0 127.8 19.37 1.503 9.500
0.000 128.2 19.37 9.500
Fit parameter 5 has pegged
26504.5 0 127.8 19.37 1.501 9.500
0.000 128.2 19.37 9.500
Fit parameter 5 has pegged
26497.5 0 127.9 19.37 1.500 9.500
0.000 128.2 19.37 9.500
Fit parameter 5 has pegged
26491.0 0 127.9 19.37 1.499 9.500
0.000 128.2 19.37 9.500
Fit parameter 5 has pegged
26484.9 0 127.9 19.37 1.498 9.500
0.000 128.2 19.37 9.500
Fit parameter 5 has pegged
26479.4 0 128.0 19.37 1.497 9.500
0.000 128.3 19.37 9.500
Fit parameter 5 has pegged
26474.2 0 128.0 19.37 1.497 9.500
0.000 128.3 19.37 9.500
Fit parameter 5 has pegged
26469.5 0 128.0 19.37 1.496 9.500
0.000 128.3 19.37 9.500
Fit parameter 5 has pegged
26465.1 0 128.1 19.37 1.495 9.500
0.000 128.3 19.37 9.500
Fit parameter 5 has pegged
26460.9 0 128.1 19.37 1.494 9.500
0.000 128.3 19.37 9.500
Fit parameter 5 has pegged
26457.1 0 128.1 19.37 1.494 9.500
0.000 128.3 19.37 9.500
Fit parameter 5 has pegged
26453.7 0 128.1 19.37 1.493 9.500
0.000 128.3 19.37 9.500
Fit parameter 5 has pegged
26450.4 0 128.2 19.37 1.493 9.500
0.000 128.3 19.37 9.500
Fit parameter 5 has pegged
26447.3 0 128.2 19.37 1.492 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26444.5 0 128.2 19.37 1.492 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26441.9 0 128.2 19.37 1.491 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26439.4 0 128.3 19.37 1.491 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26437.2 0 128.3 19.37 1.490 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26434.9 0 128.3 19.37 1.490 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26432.9 0 128.3 19.37 1.490 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26431.0 0 128.3 19.37 1.489 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26429.2 0 128.4 19.37 1.489 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26427.7 0 128.4 19.37 1.489 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26426.1 0 128.4 19.37 1.488 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26424.7 0 128.4 19.37 1.488 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26423.3 0 128.4 19.37 1.488 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26422.0 0 128.4 19.37 1.488 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26420.8 0 128.4 19.37 1.487 9.500
0.000 128.4 19.37 9.500
Fit parameter 5 has pegged
26419.7 0 128.5 19.37 1.487 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26418.7 0 128.5 19.37 1.487 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26417.6 0 128.5 19.37 1.487 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26416.7 0 128.5 19.37 1.486 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26415.8 0 128.5 19.37 1.486 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26415.1 0 128.5 19.37 1.486 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26414.3 0 128.5 19.37 1.486 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26413.6 0 128.5 19.37 1.486 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26412.8 0 128.5 19.37 1.486 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26412.2 0 128.6 19.37 1.486 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26411.6 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26411.0 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26410.4 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26409.9 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26409.4 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26408.9 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26408.5 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26408.0 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26407.7 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26407.3 0 128.6 19.37 1.485 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26406.9 0 128.6 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26406.6 0 128.6 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26406.3 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26405.9 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26405.7 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26405.4 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26405.1 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26404.9 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26404.6 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26404.4 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26404.2 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26404.1 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26403.9 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26403.7 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26403.5 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26403.4 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26403.3 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26403.1 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26402.9 0 128.7 19.37 1.484 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26402.7 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26402.6 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26402.5 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26402.4 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26402.3 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26402.2 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26402.1 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.9 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.9 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.7 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.6 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.6 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.5 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.4 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.4 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.3 0 128.7 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.2 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.2 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.1 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26401.1 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26400.8 1 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26400.7 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26400.7 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26400.6 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26400.4 1 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26400.3 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26400.1 1 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26400.1 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
26400.0 0 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26399.8 1 128.8 19.37 1.483 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26399.6 1 128.8 19.37 1.482 9.500
0.000 128.5 19.37 9.500
Fit parameter 5 has pegged
26399.3 1 128.8 19.37 1.482 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26399.1 1 128.8 19.37 1.482 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26398.8 1 128.8 19.37 1.482 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26398.5 1 128.8 19.37 1.482 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26398.3 1 128.8 19.37 1.482 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26398.1 1 128.8 19.37 1.482 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26397.8 1 128.8 19.37 1.482 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26397.6 1 128.8 19.37 1.481 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26397.4 1 128.8 19.37 1.481 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26397.1 1 128.8 19.37 1.481 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26397.0 1 128.8 19.37 1.481 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26396.7 1 128.8 19.37 1.481 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26396.5 1 128.8 19.37 1.481 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26396.3 1 128.8 19.37 1.481 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26396.1 1 128.8 19.37 1.481 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26395.9 1 128.8 19.37 1.481 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26395.7 1 128.8 19.37 1.480 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26395.5 1 128.8 19.37 1.480 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26395.3 1 128.8 19.37 1.480 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26395.1 1 128.8 19.37 1.480 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26394.9 1 128.8 19.37 1.480 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26394.7 1 128.8 19.37 1.480 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26394.5 1 128.8 19.37 1.480 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26394.3 1 128.8 19.37 1.480 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26394.2 1 128.8 19.37 1.480 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26393.9 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26393.8 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26393.7 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26393.5 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26393.3 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26393.1 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26393.0 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26392.8 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26392.6 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26392.5 1 128.8 19.37 1.479 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26392.3 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26392.2 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26392.0 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26391.9 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26391.7 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26391.6 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26391.4 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26391.2 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26391.2 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26391.0 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26390.9 1 128.8 19.37 1.478 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26390.7 1 128.8 19.37 1.477 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26390.6 1 128.8 19.37 1.477 9.500
0.000 128.6 19.37 9.500
Fit parameter 5 has pegged
26390.6 1 128.8 19.37 1.477 9.500
0.000 128.6 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.91E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.33E-02 | 0.99 0.02 -0.01 0.11 0.01
1.13E-02 | 0.11 0.00 0.00 -0.99 -0.04
3.16E+00 | 0.02 -0.97 0.00 0.01 -0.24
1.48E+00 | 0.00 0.24 0.00 0.04 -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 128.827 +/- 0.119510 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.74995 1
3 3 1 gaussian norm 1.47727 +/- 0.535240E-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 128.598 +/- 0.120405 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.25450 2
8 3 3 gaussian norm 1.47727 = 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 = 26390.55 using 198 PHA bins.
Reduced chi-squared = 138.8976 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 (133.962) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square (133.962) > 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 1.376 photons ( 2.9004E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.374 photons ( 2.8917E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:28 12-Jun-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 3.164 +/- 6.6673E-03
Net count rate (cts/s) for file 2 3.164 +/- 6.6673E-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 = 296763.6 using 168 PHA bins.
Reduced chi-squared = 1854.772 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15434.89 using 168 PHA bins.
Reduced chi-squared = 96.46806 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1322.78 -3 88.32 11.63 0.2124 0.9439
0.6978 89.34 11.28 0.9377
626.345 -4 86.00 11.79 0.2186 0.9509
0.7691 88.45 11.74 0.9500
614.427 -5 86.15 10.62 0.2044 0.9271
0.7094 88.44 11.15 0.9279
611.087 -6 85.89 11.09 0.2111 0.9355
0.7293 88.39 11.45 0.9352
610.439 -7 85.99 10.87 0.2080 0.9313
0.7201 88.41 11.31 0.9315
610.321 -8 85.94 10.97 0.2095 0.9333
0.7245 88.40 11.38 0.9332
610.287 -9 85.96 10.93 0.2088 0.9324
0.7225 88.41 11.34 0.9324
610.283 -10 85.95 10.95 0.2092 0.9328
0.7234 88.40 11.36 0.9328
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.36E-07 | 0.00 0.00 -0.24 0.63 -0.41 0.00 0.00 0.61
8.21E-07 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
7.75E-06 | 0.00 0.05 -0.97 -0.14 0.14 0.00 0.04 -0.14
7.72E-04 | 0.03 0.47 -0.01 -0.26 -0.78 0.03 0.20 -0.25
9.12E-04 | 0.00 0.65 0.01 0.06 0.16 -0.01 -0.74 0.05
3.31E-03 | 0.02 -0.60 -0.08 -0.16 -0.42 0.02 -0.64 -0.15
5.58E-02 | 0.49 0.01 0.00 0.02 0.04 0.87 0.00 0.01
4.77E-02 | 0.87 0.00 0.00 0.00 0.01 -0.49 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 85.9509 +/- 0.222643 1
2 2 1 gaussian Sigma keV 10.9483 +/- 0.416771E-01 1
3 3 1 gaussian norm 0.209157 +/- 0.527604E-02 1
4 4 2 powerlaw PhoIndex 0.932822 +/- 0.124591E-01 1
5 5 2 powerlaw norm 0.723432 +/- 0.344902E-01 1
6 6 3 gaussian LineE keV 88.4035 +/- 0.231897 2
7 7 3 gaussian Sigma keV 11.3606 +/- 0.434740E-01 2
8 3 3 gaussian norm 0.209157 = par 3 2
9 8 4 powerlaw PhoIndex 0.932798 +/- 0.119741E-01 2
10 5 4 powerlaw norm 0.723432 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 610.2832 using 168 PHA bins.
Reduced chi-squared = 3.814270 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 ( 3.654) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.654) > 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 1.295 photons ( 1.5851E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.295 photons ( 1.5932E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
47.91423
=====best line=====
85.9571 0.223037
=====best sigma=====
10.9355 0.418524E-01
=====norm=====
0.208963 0.529727E-02
=====phoindx=====
0.932574 0.124909E-01
=====pow_norm=====
0.722875 0.346252E-01
=====best line=====
88.4048 0.232055
=====best sigma=====
11.3513 0.436166E-01
=====norm=====
0.208963 par
=====phoindx=====
0.932576 0.120044E-01
=====pow_norm=====
0.722875 par
=====redu_chi=====
3.814255
=====area_flux=====
1.295
=====area_flux_f=====
1.295
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 4 1 640 2000 1375.3136 0 0.208963 0.529727E-02 10.9355 0.418524E-01 0.932574 0.124909E-01 0.722875 0.346252E-01 1.295 640 2000 1414.4768 0 0.208963 0.529727E-02 11.3513 0.436166E-01 0.932576 0.120044E-01 0.722875 0.346252E-01 1.295 3.814255 1
=====redu_chi=====
669.3522
=====best line=====
128.827 0.119510
=====best sigma=====
19.3655 1.74995
=====norm=====
1.47727 0.535240E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
128.598 0.120405
=====best sigma=====
19.3655 1.25450
=====norm=====
1.47727 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
138.8976
=====area_flux=====
1.376
=====area_flux_f=====
1.374
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 4 1 1600 3200 2061.232 0 1.47727 0.535240E-02 309.848 27.9992 9.50000 -1.00000 0.00000 -1.00000 1.376 1600 3200 2057.568 0 1.47727 0.535240E-02 309.848 20.072 9.50000 -1.00000 0.00000 -1.00000 1.374 138.8976 1
=====redu_chi=====
96.46806
=====best line=====
85.9509 0.222643
=====best sigma=====
10.9483 0.416771E-01
=====norm=====
0.209157 0.527604E-02
=====phoindx=====
0.932822 0.124591E-01
=====pow_norm=====
0.723432 0.344902E-01
=====best line=====
88.4035 0.231897
=====best sigma=====
11.3606 0.434740E-01
=====norm=====
0.209157 par
=====phoindx=====
0.932798 0.119741E-01
=====pow_norm=====
0.723432 par
=====redu_chi=====
3.814270
=====area_flux=====
1.295
=====area_flux_f=====
1.295
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 4 1 640 2000 1375.2144 0 0.209157 0.527604E-02 10.9483 0.416771E-01 0.932822 0.124591E-01 0.723432 0.344902E-01 1.295 640 2000 1414.456 0 0.209157 0.527604E-02 11.3606 0.434740E-01 0.932798 0.119741E-01 0.723432 0.344902E-01 1.295 3.814270 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:28 12-Jun-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 3.256 +/- 6.7641E-03
Net count rate (cts/s) for file 2 3.256 +/- 6.7641E-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 = 350693.0 using 168 PHA bins.
Reduced chi-squared = 2191.832 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 20414.29 using 168 PHA bins.
Reduced chi-squared = 127.5893 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7345.47 -3 82.41 16.30 0.2484 1.033
0.7981 82.10 16.36 1.025
1605.27 -3 75.52 7.873 0.1434 0.8771
0.6005 74.67 7.732 0.8844
1132.06 -1 76.38 9.745 0.1873 0.8888
0.5906 76.26 11.81 0.8917
860.178 -2 76.70 9.473 0.1978 0.9178
0.6521 76.50 9.812 0.9185
810.431 -2 76.72 9.808 0.2067 0.9397
0.7116 76.67 10.47 0.9407
768.041 -2 76.85 9.673 0.2046 0.9561
0.7662 76.76 9.976 0.9572
746.019 -2 76.90 9.760 0.2068 0.9695
0.8112 76.85 9.983 0.9708
741.843 -3 77.11 9.781 0.2086 1.007
0.9382 77.06 9.996 1.008
712.793 -4 77.18 9.816 0.2097 1.020
1.004 77.13 10.04 1.022
710.778 -5 77.19 9.815 0.2097 1.020
1.009 77.14 10.01 1.022
710.737 -6 77.19 9.818 0.2098 1.020
1.009 77.14 10.04 1.022
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
7.24E-07 | 0.00 0.00 -0.26 0.67 -0.31 0.00 0.00 0.62
8.59E-07 | 0.00 0.00 -0.01 -0.68 0.00 0.00 0.00 0.73
7.47E-06 | 0.00 0.01 -0.97 -0.17 0.09 0.00 0.03 -0.17
1.35E-03 | 0.05 0.01 -0.01 -0.23 -0.94 0.05 0.14 -0.22
2.34E-03 | 0.00 -0.10 0.03 0.04 0.13 0.02 0.98 0.04
4.65E-02 | 0.56 -0.56 -0.01 0.01 0.04 0.60 -0.07 0.01
3.43E-02 | 0.74 0.66 0.01 0.01 0.04 -0.07 0.06 0.01
3.81E-02 | -0.36 0.49 0.00 0.01 0.03 0.79 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 77.1869 +/- 0.196400 1
2 2 1 gaussian Sigma keV 9.81780 +/- 0.196946 1
3 3 1 gaussian norm 0.209751 +/- 0.386014E-02 1
4 4 2 powerlaw PhoIndex 1.02033 +/- 0.923694E-02 1
5 5 2 powerlaw norm 1.00869 +/- 0.372621E-01 1
6 6 3 gaussian LineE keV 77.1362 +/- 0.202526 2
7 7 3 gaussian Sigma keV 10.0364 +/- 0.519205E-01 2
8 3 3 gaussian norm 0.209751 = par 3 2
9 8 4 powerlaw PhoIndex 1.02219 +/- 0.886304E-02 2
10 5 4 powerlaw norm 1.00869 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 710.7368 using 168 PHA bins.
Reduced chi-squared = 4.442105 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 ( 4.256) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.256) > 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 1.253 photons ( 1.4946E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.245 photons ( 1.4844E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:29 12-Jun-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 7.779 +/- 1.0455E-02
Net count rate (cts/s) for file 2 7.779 +/- 1.0455E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.522 +/- 1.2452E-02( 58.1% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.522 +/- 1.2452E-02( 58.1% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.2916323E+07 using 198 PHA bins.
Reduced chi-squared = 67980.65 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 109336.4 using 198 PHA bins.
Reduced chi-squared = 575.4545 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
69302.1 -3 106.2 18.49 0.5013 2.746
0.1145 99.43 18.51 2.698
37052.2 -2 97.87 19.11 2.141 6.542
2.9418E-02 98.99 19.13 8.351
33864.8 -1 99.94 19.31 2.065 8.287
1.1298E-02 99.99 19.30 9.336
31007.5 -1 102.2 19.36 1.994 9.494
4.5575E-03 101.4 19.34 9.467
28332.7 -1 104.5 19.36 1.925 9.498
1.2135E-03 103.0 19.36 9.495
25270.3 -1 106.8 19.37 1.828 9.499
5.5993E-04 104.9 19.37 9.499
22701.4 -1 109.1 19.37 1.737 9.500
1.6559E-04 106.8 19.37 9.499
22059.5 -2 110.4 19.37 1.723 9.500
7.6108E-05 107.8 19.37 9.500
21656.1 -2 111.0 19.37 1.705 9.500
2.8008E-05 108.3 19.37 9.500
21392.0 -3 111.5 19.37 1.687 -7.5850E-02
6.5016E-06 108.6 19.37 1.683
18982.0 -1 113.5 19.37 1.527 0.9585
1.9814E-06 109.9 18.54 8.368
18694.9 0 114.3 19.37 1.495 7.000
1.3290E-07 110.5 18.73 9.266
18548.0 0 114.9 19.37 1.471 9.297
2.8781E-08 110.9 18.72 9.449
18483.8 0 115.0 19.37 1.467 9.446
8.9048E-09 110.9 18.67 9.499
18435.7 0 115.1 19.37 1.463 9.483
6.7282E-11 110.9 18.63 9.499
18396.8 0 115.1 19.37 1.460 9.495
3.0582E-11 110.9 18.60 9.500
18325.8 0 115.8 19.37 1.432 9.502
9.4118E-13 111.6 18.52 9.500
18285.3 0 116.0 19.37 1.423 9.502
4.4282E-13 111.9 18.44 9.500
Fit parameter 5 has pegged
17988.0 0 116.1 19.37 1.401 9.502
0.000 112.0 17.87 9.500
Fit parameter 5 has pegged
17897.7 -1 116.5 19.13 1.365 9.502
0.000 113.0 17.33 9.500
Fit parameter 5 has pegged
17865.7 -2 116.7 19.16 1.352 9.502
0.000 113.5 17.33 9.500
Fit parameter 5 has pegged
17862.5 -3 116.9 19.08 1.345 9.502
0.000 113.7 17.17 9.500
Fit parameter 5 has pegged
17861.8 -4 116.9 19.10 1.346 9.502
0.000 113.7 17.24 9.500
Fit parameter 5 has pegged
17861.6 -5 116.9 19.08 1.344 9.502
0.000 113.7 17.19 9.500
Fit parameter 5 has pegged
17861.5 -6 116.9 19.10 1.345 9.502
0.000 113.7 17.22 9.500
Fit parameter 5 has pegged
17861.5 0 116.9 19.09 1.345 9.502
0.000 113.7 17.21 9.500
Fit parameter 5 has pegged
17861.4 3 116.9 19.09 1.345 9.502
0.000 113.7 17.21 9.500
Fit parameter 5 has pegged
17861.4 2 116.9 19.09 1.345 9.502
0.000 113.7 17.21 9.500
17861.4 2 116.9 19.09 1.345 9.502
0.000 113.7 17.21 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.94E-05 | -0.01 0.00 -1.00 -0.01 0.02
1.75E-03 | 0.01 0.00 0.01 0.31 0.95
1.24E-02 | -0.95 -0.15 0.01 0.27 -0.08
4.00E-01 | 0.18 -0.98 0.00 0.06 -0.02
2.16E-02 | -0.26 -0.11 0.02 -0.91 0.30
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.874 +/- 0.158521 1
2 2 1 gaussian Sigma keV 19.0911 +/- 0.621661 1
3 3 1 gaussian norm 1.34486 +/- 0.599468E-02 1
4 4 2 powerlaw PhoIndex 9.50189 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.714 +/- 0.142849 2
7 7 3 gaussian Sigma keV 17.2116 +/- 0.618844E-01 2
8 3 3 gaussian norm 1.34486 = 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 = 17861.44 using 198 PHA bins.
Reduced chi-squared = 94.00757 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 ( 90.667) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 90.667) > 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 1.091 photons ( 2.1547E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.059 photons ( 2.0364E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:29 12-Jun-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 3.256 +/- 6.7641E-03
Net count rate (cts/s) for file 2 3.256 +/- 6.7641E-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 = 424388.7 using 168 PHA bins.
Reduced chi-squared = 2652.429 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 31374.44 using 168 PHA bins.
Reduced chi-squared = 196.0903 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
15226.8 -3 85.42 13.91 0.1785 1.077
0.8848 85.22 13.77 1.066
2660.89 -4 72.49 15.18 0.2297 0.9475
0.7735 71.87 14.90 0.9549
1644.64 -2 80.43 8.203 0.1304 0.9780
0.8806 79.67 8.595 0.9782
889.207 -1 76.99 10.79 0.1834 0.9813
0.8743 76.96 9.804 0.9829
725.280 -2 77.22 9.886 0.2043 0.9911
0.8945 77.01 9.951 0.9929
719.167 -3 77.15 9.805 0.2095 1.013
0.9711 77.09 10.34 1.014
711.155 -4 77.19 9.795 0.2090 1.020
1.006 77.14 9.994 1.022
710.735 -5 77.18 9.825 0.2099 1.020
1.009 77.13 10.04 1.022
710.735 0 77.18 9.825 0.2099 1.020
1.009 77.13 10.04 1.022
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.25E-07 | 0.00 0.00 -0.26 0.67 -0.31 0.00 0.00 0.62
8.59E-07 | 0.00 0.00 -0.01 -0.68 0.00 0.00 0.00 0.73
7.48E-06 | 0.00 0.01 -0.97 -0.17 0.09 0.00 0.03 -0.17
1.35E-03 | 0.05 0.01 -0.01 -0.23 -0.93 0.05 0.15 -0.22
2.29E-03 | 0.00 -0.10 0.03 0.04 0.14 0.02 0.98 0.04
4.66E-02 | 0.56 -0.56 -0.01 0.01 0.04 0.60 -0.07 0.01
3.44E-02 | 0.75 0.66 0.01 0.01 0.04 -0.07 0.06 0.01
3.81E-02 | -0.36 0.49 0.00 0.01 0.03 0.79 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 77.1835 +/- 0.196496 1
2 2 1 gaussian Sigma keV 9.82486 +/- 0.197061 1
3 3 1 gaussian norm 0.209893 +/- 0.386267E-02 1
4 4 2 powerlaw PhoIndex 1.02038 +/- 0.924010E-02 1
5 5 2 powerlaw norm 1.00868 +/- 0.372741E-01 1
6 6 3 gaussian LineE keV 77.1349 +/- 0.202554 2
7 7 3 gaussian Sigma keV 10.0397 +/- 0.513460E-01 2
8 3 3 gaussian norm 0.209893 = par 3 2
9 8 4 powerlaw PhoIndex 1.02222 +/- 0.886602E-02 2
10 5 4 powerlaw norm 1.00868 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 710.7352 using 168 PHA bins.
Reduced chi-squared = 4.442095 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 ( 4.256) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.256) > 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 1.253 photons ( 1.4945E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.245 photons ( 1.4844E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
127.5893
=====best line=====
77.1869 0.196400
=====best sigma=====
9.81780 0.196946
=====norm=====
0.209751 0.386014E-02
=====phoindx=====
1.02033 0.923694E-02
=====pow_norm=====
1.00869 0.372621E-01
=====best line=====
77.1362 0.202526
=====best sigma=====
10.0364 0.519205E-01
=====norm=====
0.209751 par
=====phoindx=====
1.02219 0.886304E-02
=====pow_norm=====
1.00869 par
=====redu_chi=====
4.442105
=====area_flux=====
1.253
=====area_flux_f=====
1.245
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 5 1 640 2000 1234.9904 0 0.209751 0.386014E-02 9.81780 0.196946 1.02033 0.923694E-02 1.00869 0.372621E-01 1.253 640 2000 1234.1792 0 0.209751 0.386014E-02 10.0364 0.519205E-01 1.02219 0.886304E-02 1.00869 0.372621E-01 1.245 4.442105 1
=====redu_chi=====
575.4545
=====best line=====
116.874 0.158521
=====best sigma=====
19.0911 0.621661
=====norm=====
1.34486 0.599468E-02
=====phoindx=====
9.50189 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.714 0.142849
=====best sigma=====
17.2116 0.618844E-01
=====norm=====
1.34486 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
94.00757
=====area_flux=====
1.091
=====area_flux_f=====
1.059
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 5 1 1600 3200 1869.984 0 1.34486 0.599468E-02 305.4576 9.946576 9.50189 -1.00000 0.00000 -1.00000 1.091 1600 3200 1819.424 0 1.34486 0.599468E-02 275.3856 0.9901504 9.50001 -1.00000 0.00000 -1.00000 1.059 94.00757 1
=====redu_chi=====
196.0903
=====best line=====
77.1835 0.196496
=====best sigma=====
9.82486 0.197061
=====norm=====
0.209893 0.386267E-02
=====phoindx=====
1.02038 0.924010E-02
=====pow_norm=====
1.00868 0.372741E-01
=====best line=====
77.1349 0.202554
=====best sigma=====
10.0397 0.513460E-01
=====norm=====
0.209893 par
=====phoindx=====
1.02222 0.886602E-02
=====pow_norm=====
1.00868 par
=====redu_chi=====
4.442095
=====area_flux=====
1.253
=====area_flux_f=====
1.245
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 5 1 640 2000 1234.936 0 0.209893 0.386267E-02 9.82486 0.197061 1.02038 0.924010E-02 1.00868 0.372741E-01 1.253 640 2000 1234.1584 0 0.209893 0.386267E-02 10.0397 0.513460E-01 1.02222 0.886602E-02 1.00868 0.372741E-01 1.245 4.442095 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:29 12-Jun-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 3.248 +/- 6.7555E-03
Net count rate (cts/s) for file 2 3.248 +/- 6.7555E-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 = 275636.9 using 168 PHA bins.
Reduced chi-squared = 1722.731 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13579.47 using 168 PHA bins.
Reduced chi-squared = 84.87172 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1982.22 -3 84.48 15.67 0.2427 0.8795
0.5732 85.04 15.06 0.8761
1176.45 -3 78.54 9.020 0.1431 0.7920
0.4080 80.43 9.231 0.7943
1086.96 -2 78.77 10.62 0.1887 0.8042
0.4298 80.92 14.80 0.8038
807.772 -3 79.38 9.758 0.1618 0.8320
0.4898 81.60 8.738 0.8307
776.452 -1 79.03 9.573 0.1828 0.8325
0.4892 81.25 12.13 0.8324
680.883 -2 79.03 9.637 0.1845 0.8357
0.4950 81.16 9.903 0.8354
679.956 0 79.03 9.636 0.1845 0.8357
0.4951 81.16 9.941 0.8354
679.206 0 79.04 9.635 0.1846 0.8357
0.4951 81.16 9.975 0.8354
675.746 0 79.04 9.647 0.1855 0.8357
0.4950 81.15 10.33 0.8356
673.802 -1 79.02 9.769 0.1892 0.8364
0.4949 81.12 10.40 0.8364
672.674 -2 79.04 9.801 0.1907 0.8396
0.5008 81.13 10.45 0.8395
671.258 -3 79.09 9.824 0.1917 0.8484
0.5187 81.18 10.47 0.8481
670.773 -4 79.12 9.836 0.1921 0.8517
0.5266 81.21 10.48 0.8516
670.729 -5 79.12 9.837 0.1921 0.8518
0.5272 81.21 10.48 0.8518
670.729 2 79.12 9.837 0.1921 0.8518
0.5272 81.21 10.48 0.8518
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.28E-07 | 0.00 0.00 -0.22 0.59 -0.53 0.00 0.00 0.57
7.80E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.60E-06 | 0.00 0.01 -0.98 -0.11 0.14 0.00 0.05 -0.12
4.51E-04 | 0.02 0.01 -0.02 -0.39 -0.83 0.02 0.12 -0.37
1.24E-03 | 0.00 -0.07 0.05 0.05 0.10 0.01 0.99 0.05
4.39E-02 | 0.83 0.53 0.01 0.01 0.02 -0.16 0.04 0.01
5.77E-02 | -0.39 0.34 0.00 -0.01 -0.02 -0.85 0.03 -0.01
4.98E-02 | -0.40 0.77 0.01 0.01 0.01 0.49 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 79.1202 +/- 0.216510 1
2 2 1 gaussian Sigma keV 9.83654 +/- 0.221028 1
3 3 1 gaussian norm 0.192074 +/- 0.405805E-02 1
4 4 2 powerlaw PhoIndex 0.851753 +/- 0.918387E-02 1
5 5 2 powerlaw norm 0.527156 +/- 0.192667E-01 1
6 6 3 gaussian LineE keV 81.2075 +/- 0.235278 2
7 7 3 gaussian Sigma keV 10.4770 +/- 0.377482E-01 2
8 3 3 gaussian norm 0.192074 = par 3 2
9 8 4 powerlaw PhoIndex 0.851800 +/- 0.882049E-02 2
10 5 4 powerlaw norm 0.527156 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 670.7294 using 168 PHA bins.
Reduced chi-squared = 4.192059 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 ( 4.016) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.016) > 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 1.310 photons ( 1.5903E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.310 photons ( 1.5964E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:30 12-Jun-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 7.806 +/- 1.0473E-02
Net count rate (cts/s) for file 2 7.806 +/- 1.0473E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.558 +/- 1.2463E-02( 58.4% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.558 +/- 1.2463E-02( 58.4% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 7287047. using 198 PHA bins.
Reduced chi-squared = 38352.88 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 124093.3 using 198 PHA bins.
Reduced chi-squared = 653.1227 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
72728.9 -3 114.1 19.05 0.5792 2.873
0.2247 104.9 18.99 2.830
50917.9 -2 101.8 19.27 2.288 7.801
2.2105E-02 103.5 19.35 8.817
49183.2 -1 102.8 19.33 2.253 9.112
1.1158E-03 104.1 19.36 9.412
43936.4 0 104.2 19.36 2.095 2.825
2.6961E-05 105.4 19.36 9.471
43307.9 -1 105.1 19.37 2.120 7.557
1294. 106.7 19.37 9.500
42961.3 -1 106.2 19.37 2.139 9.407
380.5 107.4 19.37 9.500
41679.0 0 106.5 19.37 2.102 9.457
45.77 107.7 19.37 9.500
36890.2 0 108.0 19.37 1.971 9.490
13.23 109.2 19.37 9.500
33050.3 0 109.8 19.37 1.881 9.496
3.108 110.9 19.37 9.500
29897.6 0 111.6 19.37 1.813 9.499
9.5276E-02 112.6 19.37 9.500
27438.6 0 113.3 19.37 1.761 9.500
3.8779E-02 114.1 19.37 9.500
25636.4 0 114.8 19.37 1.721 9.500
6.9954E-03 115.4 19.37 9.500
24366.9 0 116.0 19.37 1.689 9.500
1.8553E-03 116.4 19.37 9.500
23499.1 0 117.1 19.37 1.664 9.500
8.8508E-04 117.2 19.37 9.500
22478.9 0 118.6 19.37 1.624 9.500
1.1855E-04 118.1 19.37 9.500
22186.9 0 119.2 19.37 1.610 9.500
1.0990E-05 118.4 19.37 9.500
21985.2 0 119.7 19.37 1.599 9.500
4.1223E-06 118.6 19.37 9.500
21847.3 0 120.1 19.37 1.591 9.500
6.4620E-07 118.8 19.37 9.500
21671.3 0 120.6 19.37 1.578 9.500
8.8783E-08 119.1 19.37 9.500
21619.8 0 120.7 19.37 1.574 9.500
2.8667E-08 119.2 19.37 9.500
21586.0 0 120.9 19.37 1.571 9.500
1.3583E-08 119.2 19.37 9.500
21562.1 0 121.0 19.37 1.568 9.500
6.0013E-09 119.3 19.37 9.500
21537.9 0 121.0 19.37 1.566 9.500
2.1886E-09 119.3 19.37 9.500
21515.8 0 121.1 19.37 1.563 9.500
2.7029E-10 119.4 19.37 9.500
21502.4 0 121.2 19.37 1.562 9.500
3.0641E-11 119.4 19.37 9.500
21495.8 0 121.2 19.37 1.561 9.500
5.8962E-13 119.4 19.37 9.500
Fit parameter 5 has pegged
21424.2 0 121.2 19.37 1.552 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
21402.8 0 121.2 19.37 1.548 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21401.9 0 121.2 19.37 1.547 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
21378.0 0 121.2 19.37 1.544 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
21356.6 0 121.3 19.37 1.541 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
21337.2 0 121.4 19.37 1.538 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
21319.8 0 121.4 19.37 1.535 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
21304.0 0 121.5 19.37 1.532 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
21289.8 0 121.6 19.37 1.530 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
21276.8 0 121.6 19.37 1.528 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
21265.0 0 121.7 19.37 1.526 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
21254.2 0 121.7 19.37 1.524 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21244.5 0 121.8 19.37 1.522 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21235.6 0 121.8 19.37 1.520 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21227.4 0 121.9 19.37 1.519 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21219.7 0 121.9 19.37 1.517 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21212.8 0 122.0 19.37 1.516 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21206.4 0 122.0 19.37 1.514 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21200.6 0 122.0 19.37 1.513 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21195.4 0 122.1 19.37 1.512 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21190.3 0 122.1 19.37 1.511 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21185.9 0 122.1 19.37 1.510 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21181.6 0 122.2 19.37 1.509 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
21177.8 0 122.2 19.37 1.508 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21174.2 0 122.2 19.37 1.507 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21170.9 0 122.3 19.37 1.507 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21167.9 0 122.3 19.37 1.506 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21165.1 0 122.3 19.37 1.505 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21162.4 0 122.4 19.37 1.504 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21160.0 0 122.4 19.37 1.504 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21157.8 0 122.4 19.37 1.503 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21155.8 0 122.4 19.37 1.503 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21153.9 0 122.4 19.37 1.502 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21152.0 0 122.5 19.37 1.502 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21150.3 0 122.5 19.37 1.501 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21148.9 0 122.5 19.37 1.501 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21147.4 0 122.5 19.37 1.500 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21146.1 0 122.5 19.37 1.500 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21144.9 0 122.6 19.37 1.499 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21143.8 0 122.6 19.37 1.499 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21142.7 0 122.6 19.37 1.499 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21141.6 0 122.6 19.37 1.498 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21140.7 0 122.6 19.37 1.498 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
21139.8 0 122.6 19.37 1.498 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
21139.1 0 122.6 19.37 1.497 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
21138.2 0 122.7 19.37 1.497 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21137.5 0 122.7 19.37 1.497 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
21136.9 0 122.7 19.37 1.497 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21136.3 0 122.7 19.37 1.496 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21135.7 0 122.7 19.37 1.496 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
21135.2 0 122.7 19.37 1.496 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
21134.6 0 122.7 19.37 1.496 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
21134.1 0 122.7 19.37 1.496 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
21133.7 0 122.7 19.37 1.495 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21133.3 0 122.7 19.37 1.495 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
21132.9 0 122.7 19.37 1.495 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21132.6 0 122.8 19.37 1.495 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21132.2 0 122.8 19.37 1.495 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21131.9 0 122.8 19.37 1.495 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21131.6 0 122.8 19.37 1.494 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21131.3 0 122.8 19.37 1.494 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21130.9 0 122.8 19.37 1.494 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21130.6 0 122.8 19.37 1.494 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21130.4 0 122.8 19.37 1.494 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21130.2 0 122.8 19.37 1.494 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21129.9 0 122.8 19.37 1.494 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21129.7 0 122.8 19.37 1.494 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21129.5 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21129.3 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21129.2 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21128.9 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21128.8 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21128.8 1 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21128.6 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21128.4 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21128.3 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21128.2 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21128.1 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21128.0 0 122.8 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21127.9 0 122.9 19.37 1.493 9.500
0.000 119.2 19.36 9.500
Fit parameter 5 has pegged
21127.8 0 122.9 19.37 1.493 9.500
0.000 119.2 19.35 9.500
Fit parameter 5 has pegged
21127.7 0 122.9 19.37 1.492 9.500
0.000 119.2 19.35 9.500
Fit parameter 5 has pegged
21127.6 0 122.9 19.37 1.492 9.500
0.000 119.2 19.35 9.500
Fit parameter 5 has pegged
21127.5 0 122.9 19.37 1.492 9.500
0.000 119.2 19.35 9.500
Fit parameter 5 has pegged
21127.4 0 122.9 19.37 1.492 9.500
0.000 119.2 19.35 9.500
Fit parameter 5 has pegged
21127.2 0 122.9 19.37 1.492 9.500
0.000 119.2 19.35 9.500
Fit parameter 5 has pegged
21127.2 1 122.9 19.37 1.492 9.500
0.000 119.2 19.35 9.500
Fit parameter 5 has pegged
21127.1 2 122.9 19.37 1.492 9.500
0.000 119.2 19.35 9.500
Fit parameter 5 has pegged
21127.1 4 122.9 19.37 1.492 9.500
0.000 119.2 19.35 9.500
21127.1 4 122.9 19.37 1.492 9.500
0.000 119.2 19.35 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.07E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.11E-02 | 0.20 0.00 0.01 -0.98 -0.08
1.40E-02 | -0.98 -0.04 0.01 -0.20 -0.02
2.32E+00 | -0.04 0.95 0.00 -0.03 0.32
1.21E+00 | 0.00 -0.32 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 122.867 +/- 0.132706 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.48263 1
3 3 1 gaussian norm 1.49219 +/- 0.583218E-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 119.224 +/- 0.142995 2
7 7 3 gaussian Sigma keV 19.3525 +/- 1.14585 2
8 3 3 gaussian norm 1.49219 = 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 = 21127.09 using 198 PHA bins.
Reduced chi-squared = 111.1952 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 (107.244) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square (107.244) > 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 1.315 photons ( 2.6800E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.253 photons ( 2.5060E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:30 12-Jun-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 3.248 +/- 6.7555E-03
Net count rate (cts/s) for file 2 3.248 +/- 6.7555E-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 = 333001.3 using 168 PHA bins.
Reduced chi-squared = 2081.258 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 23900.62 using 168 PHA bins.
Reduced chi-squared = 149.3789 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2327.50 -3 86.42 13.29 0.1900 0.8808
0.6051 86.90 12.24 0.8758
1140.14 -4 77.21 13.46 0.1963 0.8307
0.4696 79.92 12.16 0.8322
963.358 -5 81.41 9.237 0.1533 0.8675
0.5675 82.10 9.699 0.8652
902.157 -1 79.17 11.17 0.1857 0.8668
0.5647 81.34 12.79 0.8666
707.843 -2 79.61 9.810 0.1768 0.8618
0.5578 81.60 9.741 0.8618
689.028 0 79.42 9.641 0.1805 0.8621
0.5569 81.49 9.977 0.8621
687.873 -1 79.19 9.842 0.1906 0.8628
0.5536 81.31 11.12 0.8629
673.029 -2 79.18 9.815 0.1914 0.8605
0.5477 81.31 10.28 0.8606
671.030 -3 79.13 9.881 0.1931 0.8545
0.5334 81.22 10.56 0.8549
670.767 -4 79.13 9.818 0.1917 0.8516
0.5273 81.21 10.45 0.8518
670.736 -5 79.12 9.847 0.1922 0.8518
0.5273 81.21 10.49 0.8519
670.730 -6 79.12 9.832 0.1920 0.8517
0.5271 81.21 10.47 0.8518
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.29E-07 | 0.00 0.00 -0.22 0.59 -0.53 0.00 0.00 0.57
7.80E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.61E-06 | 0.00 0.01 -0.97 -0.11 0.14 0.00 0.05 -0.12
4.52E-04 | 0.02 0.01 -0.02 -0.39 -0.83 0.02 0.12 -0.37
1.24E-03 | 0.00 -0.07 0.05 0.05 0.10 0.01 0.99 0.05
4.39E-02 | 0.83 0.53 0.01 0.01 0.02 -0.16 0.04 0.01
5.78E-02 | -0.39 0.34 0.00 -0.01 -0.02 -0.85 0.03 -0.01
4.99E-02 | -0.40 0.77 0.01 0.01 0.01 0.49 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 79.1223 +/- 0.216644 1
2 2 1 gaussian Sigma keV 9.83207 +/- 0.221245 1
3 3 1 gaussian norm 0.192003 +/- 0.406381E-02 1
4 4 2 powerlaw PhoIndex 0.851713 +/- 0.918799E-02 1
5 5 2 powerlaw norm 0.527127 +/- 0.192781E-01 1
6 6 3 gaussian LineE keV 81.2083 +/- 0.235497 2
7 7 3 gaussian Sigma keV 10.4724 +/- 0.378007E-01 2
8 3 3 gaussian norm 0.192003 = par 3 2
9 8 4 powerlaw PhoIndex 0.851772 +/- 0.882450E-02 2
10 5 4 powerlaw norm 0.527127 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 670.7302 using 168 PHA bins.
Reduced chi-squared = 4.192063 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 ( 4.016) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.016) > 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 1.310 photons ( 1.5904E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.310 photons ( 1.5964E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
84.87172
=====best line=====
79.1202 0.216510
=====best sigma=====
9.83654 0.221028
=====norm=====
0.192074 0.405805E-02
=====phoindx=====
0.851753 0.918387E-02
=====pow_norm=====
0.527156 0.192667E-01
=====best line=====
81.2075 0.235278
=====best sigma=====
10.4770 0.377482E-01
=====norm=====
0.192074 par
=====phoindx=====
0.851800 0.882049E-02
=====pow_norm=====
0.527156 par
=====redu_chi=====
4.192059
=====area_flux=====
1.310
=====area_flux_f=====
1.310
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 6 1 640 2000 1265.9232 0 0.192074 0.405805E-02 9.83654 0.221028 0.851753 0.918387E-02 0.527156 0.192667E-01 1.310 640 2000 1299.32 0 0.192074 0.405805E-02 10.4770 0.377482E-01 0.851800 0.882049E-02 0.527156 0.192667E-01 1.310 4.192059 1
=====redu_chi=====
653.1227
=====best line=====
122.867 0.132706
=====best sigma=====
19.3655 1.48263
=====norm=====
1.49219 0.583218E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.224 0.142995
=====best sigma=====
19.3525 1.14585
=====norm=====
1.49219 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
111.1952
=====area_flux=====
1.315
=====area_flux_f=====
1.253
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 6 1 1600 3200 1965.872 0 1.49219 0.583218E-02 309.848 23.72208 9.50000 -1.00000 0.00000 -1.00000 1.315 1600 3200 1907.584 0 1.49219 0.583218E-02 309.64 18.3336 9.50000 -1.00000 0.00000 -1.00000 1.253 111.1952 1
=====redu_chi=====
149.3789
=====best line=====
79.1223 0.216644
=====best sigma=====
9.83207 0.221245
=====norm=====
0.192003 0.406381E-02
=====phoindx=====
0.851713 0.918799E-02
=====pow_norm=====
0.527127 0.192781E-01
=====best line=====
81.2083 0.235497
=====best sigma=====
10.4724 0.378007E-01
=====norm=====
0.192003 par
=====phoindx=====
0.851772 0.882450E-02
=====pow_norm=====
0.527127 par
=====redu_chi=====
4.192063
=====area_flux=====
1.310
=====area_flux_f=====
1.310
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 6 1 640 2000 1265.9568 0 0.192003 0.406381E-02 9.83207 0.221245 0.851713 0.918799E-02 0.527127 0.192781E-01 1.310 640 2000 1299.3328 0 0.192003 0.406381E-02 10.4724 0.378007E-01 0.851772 0.882450E-02 0.527127 0.192781E-01 1.310 4.192063 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:31 12-Jun-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 3.654 +/- 7.1650E-03
Net count rate (cts/s) for file 2 3.654 +/- 7.1650E-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 = 227518.0 using 168 PHA bins.
Reduced chi-squared = 1421.988 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 26215.71 using 168 PHA bins.
Reduced chi-squared = 163.8482 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6424.85 -3 84.77 17.62 0.3484 0.9317
0.7337 84.05 17.43 0.9238
5016.74 -3 69.56 19.21 0.6594 0.8952
0.4968 70.77 19.35 0.8980
3705.45 -2 71.12 4.787 0.1340 0.7858
0.5247 74.22 9.024 0.7837
2051.05 -3 68.75 7.722 0.1725 0.7157
0.3286 70.21 8.099 0.7188
897.984 -4 65.77 9.170 0.2196 0.6379
0.2371 70.95 9.473 0.6400
619.617 -5 66.32 8.043 0.2141 0.6469
0.2550 70.96 9.024 0.6458
612.806 -6 66.05 8.366 0.2194 0.6390
0.2470 70.88 9.206 0.6390
612.518 -7 66.09 8.280 0.2182 0.6407
0.2487 70.90 9.160 0.6403
612.495 -8 66.08 8.300 0.2185 0.6401
0.2482 70.89 9.172 0.6399
612.493 -9 66.08 8.295 0.2185 0.6403
0.2483 70.90 9.169 0.6400
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
2.28E-07 | 0.00 0.00 -0.12 0.43 -0.80 0.00 0.00 0.41
6.53E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.03E-06 | 0.00 0.01 -0.99 -0.07 0.07 0.00 0.01 -0.08
1.71E-04 | 0.02 -0.01 0.04 -0.58 -0.60 0.02 -0.01 -0.55
2.11E-02 | -0.18 -0.82 0.00 0.00 0.00 0.02 0.55 0.00
5.40E-02 | 0.28 -0.50 -0.01 0.02 0.02 0.47 -0.67 0.01
2.81E-02 | -0.94 0.00 0.00 -0.01 -0.01 0.12 -0.31 -0.01
3.40E-02 | 0.02 -0.29 -0.01 0.00 0.00 -0.87 -0.39 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 66.0822 +/- 0.172987 1
2 2 1 gaussian Sigma keV 8.29478 +/- 0.174339 1
3 3 1 gaussian norm 0.218450 +/- 0.420922E-02 1
4 4 2 powerlaw PhoIndex 0.640265 +/- 0.855553E-02 1
5 5 2 powerlaw norm 0.248312 +/- 0.901605E-02 1
6 6 3 gaussian LineE keV 70.8951 +/- 0.195889 2
7 7 3 gaussian Sigma keV 9.16900 +/- 0.196143 2
8 3 3 gaussian norm 0.218450 = par 3 2
9 8 4 powerlaw PhoIndex 0.639985 +/- 0.818813E-02 2
10 5 4 powerlaw norm 0.248312 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 612.4927 using 168 PHA bins.
Reduced chi-squared = 3.828079 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 ( 3.668) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.668) > 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 1.520 photons ( 1.8335E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.521 photons ( 1.8524E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:31 12-Jun-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 9.015 +/- 1.1255E-02
Net count rate (cts/s) for file 2 9.015 +/- 1.1255E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.361 +/- 1.3342E-02( 59.5% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.361 +/- 1.3342E-02( 59.5% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.5695826E+07 using 198 PHA bins.
Reduced chi-squared = 82609.61 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 109093.3 using 198 PHA bins.
Reduced chi-squared = 574.1751 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
70433.0 -3 95.58 19.32 0.6422 2.632
8.3535E-02 99.14 19.33 2.590
70261.3 2 95.65 19.34 0.6437 2.500
0.1116 99.18 19.33 2.560
68576.3 1 96.30 19.35 0.6591 2.046
0.3088 99.59 19.32 2.401
54827.5 0 101.8 19.36 0.7880 1.974
0.4245 102.8 19.15 2.476
45617.8 0 105.4 19.36 0.8865 1.963
0.4489 104.2 18.86 2.817
40849.2 0 115.7 19.36 1.276 2.202
0.1859 108.5 8.012 9.072
37945.9 0 115.5 19.14 1.261 3.149
7.7550E-02 108.5 8.376 9.006
27962.5 0 115.7 13.91 1.250 9.052
1.3273E-02 108.4 12.53 9.412
19084.1 -1 114.1 17.67 1.645 9.449
3.1512E-03 107.4 16.53 9.483
18579.4 0 114.5 18.24 1.613 9.484
4.4938E-04 108.6 17.09 9.495
18533.2 0 114.5 18.23 1.608 9.493
2.1952E-04 108.6 17.05 9.497
18495.6 0 114.5 18.23 1.604 9.497
1.0135E-04 108.6 17.02 9.499
18464.2 0 114.4 18.23 1.600 9.500
4.1684E-05 108.6 16.99 9.500
18437.8 0 114.4 18.22 1.597 9.500
1.1819E-05 108.6 16.97 9.500
18415.1 0 114.4 18.22 1.594 9.500
4.3871E-06 108.6 16.94 9.500
18395.1 0 114.4 18.22 1.591 9.500
6.9415E-07 108.7 16.92 9.500
18377.2 0 114.4 18.22 1.588 9.500
2.3511E-07 108.7 16.90 9.500
18361.2 0 114.4 18.22 1.585 9.500
6.7652E-09 108.7 16.88 9.500
18314.6 0 114.4 18.20 1.578 9.500
4.2888E-10 108.8 16.81 9.500
18300.0 0 114.4 18.20 1.576 9.500
1.9146E-10 108.9 16.79 9.500
18286.5 0 114.4 18.19 1.574 9.500
7.3482E-11 108.9 16.77 9.500
18274.3 0 114.4 18.19 1.572 9.500
1.4801E-11 108.9 16.75 9.500
18263.0 0 114.4 18.18 1.570 9.500
1.9754E-13 109.0 16.73 9.500
18252.4 0 114.4 18.18 1.568 9.500
8.3880E-14 109.0 16.71 9.500
18242.5 0 114.4 18.17 1.567 9.500
2.7238E-14 109.0 16.69 9.500
Fit parameter 5 has pegged
18150.3 0 114.4 18.10 1.551 9.500
0.000 109.3 16.48 9.500
Fit parameter 5 has pegged
17969.2 -1 115.2 17.73 1.497 9.500
0.000 110.6 15.90 9.500
Fit parameter 5 has pegged
17904.5 -2 115.8 17.61 1.468 9.500
0.000 111.4 15.80 9.500
Fit parameter 5 has pegged
17898.7 -3 116.0 17.50 1.458 9.500
0.000 111.7 15.66 9.500
Fit parameter 5 has pegged
17897.8 -4 116.1 17.52 1.458 9.500
0.000 111.7 15.69 9.500
Fit parameter 5 has pegged
17897.7 -5 116.1 17.49 1.456 9.500
0.000 111.7 15.66 9.500
Fit parameter 5 has pegged
17897.7 -6 116.1 17.51 1.457 9.500
0.000 111.7 15.68 9.500
Fit parameter 5 has pegged
17897.6 -7 116.1 17.49 1.456 9.500
0.000 111.7 15.67 9.500
Fit parameter 5 has pegged
17897.6 -8 116.1 17.50 1.456 9.500
0.000 111.7 15.67 9.500
Fit parameter 5 has pegged
17897.5 -9 116.1 17.49 1.456 9.500
0.000 111.7 15.67 9.500
Maximum number of increasing lambda iterations exceeded
without decreasing the fit statistic, probable minimum
found to available numerical accuracy
17897.5 0 116.1 17.49 1.456 9.500
0.000 111.7 15.67 9.500
Fit parameter 5 has pegged
17897.4 0 116.1 17.50 1.456 9.500
0.000 111.7 15.67 9.500
Fit parameter 5 has pegged
17897.4 2 116.1 17.50 1.456 9.500
0.000 111.7 15.67 9.500
Fit parameter 5 has pegged
17897.4 3 116.1 17.50 1.456 9.500
0.000 111.7 15.67 9.500
17897.4 3 116.1 17.50 1.456 9.500
0.000 111.7 15.67 9.500
Fit parameter 5 has pegged
17897.4 3 116.1 17.50 1.456 9.500
0.000 111.7 15.67 9.500
17897.4 4 116.1 17.50 1.456 9.500
0.000 111.7 15.67 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.29E-05 | -0.01 0.01 -1.00 -0.02 0.04
3.08E-04 | 0.01 -0.01 0.04 0.13 0.99
2.44E-03 | -0.39 -0.92 -0.01 -0.02 0.00
2.90E-02 | 0.77 -0.33 -0.03 0.54 -0.08
1.50E-02 | 0.51 -0.20 0.01 -0.83 0.11
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.107 +/- 0.146162 1
2 2 1 gaussian Sigma keV 17.4960 +/- 0.767741E-01 1
3 3 1 gaussian norm 1.45615 +/- 0.654797E-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 111.713 +/- 0.137043 2
7 7 3 gaussian Sigma keV 15.6697 +/- 0.254725E-01 2
8 3 3 gaussian norm 1.45615 = 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 = 17897.40 using 198 PHA bins.
Reduced chi-squared = 94.19685 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 ( 90.850) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 90.850) > 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 1.196 photons ( 2.3313E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.125 photons ( 2.1237E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:31 12-Jun-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 3.654 +/- 7.1650E-03
Net count rate (cts/s) for file 2 3.654 +/- 7.1650E-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 = 309406.9 using 168 PHA bins.
Reduced chi-squared = 1933.793 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 43776.79 using 168 PHA bins.
Reduced chi-squared = 273.6049 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
15622.1 -3 88.01 14.25 0.1322 0.7339
0.4662 87.00 14.39 0.7279
4875.86 -4 65.22 19.32 0.4190 0.8734
0.5878 63.05 19.19 0.8675
3500.75 0 67.96 11.91 0.3956 0.8723
0.5832 68.80 19.30 0.8688
3376.30 0 67.94 12.01 0.3914 0.8720
0.5829 69.33 19.19 0.8688
3272.46 0 67.92 12.10 0.3876 0.8718
0.5828 69.80 19.05 0.8688
3184.46 0 67.90 12.17 0.3842 0.8714
0.5828 70.22 18.89 0.8688
3109.01 0 67.89 12.24 0.3810 0.8711
0.5828 70.60 18.71 0.8688
3043.68 0 67.89 12.31 0.3780 0.8708
0.5829 70.94 18.53 0.8687
2660.32 0 67.90 12.41 0.3554 0.8676
0.5849 72.75 12.27 0.8672
1587.68 -1 68.51 9.992 0.2392 0.8504
0.5973 72.90 10.60 0.8493
1244.48 -2 67.50 9.388 0.1958 0.8007
0.4962 72.33 9.780 0.8018
902.532 -2 67.07 7.535 0.1978 0.7663
0.4302 71.84 8.387 0.7672
779.423 -2 66.53 8.160 0.2077 0.7391
0.3812 71.52 8.884 0.7398
712.638 -2 66.53 7.998 0.2073 0.7179
0.3491 71.43 8.824 0.7184
674.413 -2 66.40 8.099 0.2098 0.7017
0.3253 71.31 8.908 0.7020
667.168 -3 66.15 8.281 0.2163 0.6557
0.2623 71.01 9.118 0.6574
612.710 -4 66.08 8.308 0.2186 0.6397
0.2479 70.90 9.176 0.6399
612.493 -5 66.08 8.294 0.2184 0.6403
0.2483 70.90 9.169 0.6400
612.493 -6 66.08 8.296 0.2185 0.6402
0.2483 70.89 9.170 0.6400
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
2.28E-07 | 0.00 0.00 -0.12 0.43 -0.80 0.00 0.00 0.41
6.53E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.02E-06 | 0.00 0.01 -0.99 -0.07 0.07 0.00 0.01 -0.08
1.71E-04 | 0.02 -0.01 0.04 -0.58 -0.60 0.02 -0.01 -0.55
2.11E-02 | -0.18 -0.82 0.00 0.00 0.00 0.02 0.55 0.00
5.39E-02 | 0.28 -0.50 -0.01 0.02 0.02 0.47 -0.67 0.01
2.81E-02 | -0.94 0.00 0.00 -0.01 -0.01 0.11 -0.31 -0.01
3.40E-02 | 0.02 -0.29 -0.01 0.00 0.00 -0.87 -0.39 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 66.0811 +/- 0.172859 1
2 2 1 gaussian Sigma keV 8.29643 +/- 0.174195 1
3 3 1 gaussian norm 0.218479 +/- 0.420558E-02 1
4 4 2 powerlaw PhoIndex 0.640227 +/- 0.855208E-02 1
5 5 2 powerlaw norm 0.248274 +/- 0.901639E-02 1
6 6 3 gaussian LineE keV 70.8948 +/- 0.195854 2
7 7 3 gaussian Sigma keV 9.17001 +/- 0.196073 2
8 3 3 gaussian norm 0.218479 = par 3 2
9 8 4 powerlaw PhoIndex 0.639954 +/- 0.818488E-02 2
10 5 4 powerlaw norm 0.248274 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 612.4930 using 168 PHA bins.
Reduced chi-squared = 3.828081 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 ( 3.668) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.668) > 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 1.520 photons ( 1.8336E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.521 photons ( 1.8524E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
163.8482
=====best line=====
66.0822 0.172987
=====best sigma=====
8.29478 0.174339
=====norm=====
0.218450 0.420922E-02
=====phoindx=====
0.640265 0.855553E-02
=====pow_norm=====
0.248312 0.901605E-02
=====best line=====
70.8951 0.195889
=====best sigma=====
9.16900 0.196143
=====norm=====
0.218450 par
=====phoindx=====
0.639985 0.818813E-02
=====pow_norm=====
0.248312 par
=====redu_chi=====
3.828079
=====area_flux=====
1.520
=====area_flux_f=====
1.521
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 7 1 640 2000 1057.3152 0 0.218450 0.420922E-02 8.29478 0.174339 0.640265 0.855553E-02 0.248312 0.901605E-02 1.520 640 2000 1134.3216 0 0.218450 0.420922E-02 9.16900 0.196143 0.639985 0.818813E-02 0.248312 0.901605E-02 1.521 3.828079 1
=====redu_chi=====
574.1751
=====best line=====
116.107 0.146162
=====best sigma=====
17.4960 0.767741E-01
=====norm=====
1.45615 0.654797E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.713 0.137043
=====best sigma=====
15.6697 0.254725E-01
=====norm=====
1.45615 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
94.19685
=====area_flux=====
1.196
=====area_flux_f=====
1.125
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 7 1 1600 3200 1857.712 0 1.45615 0.654797E-02 279.936 1.2283856 9.50000 -1.00000 0.00000 -1.00000 1.196 1600 3200 1787.408 0 1.45615 0.654797E-02 250.7152 0.40756 9.50000 -1.00000 0.00000 -1.00000 1.125 94.19685 1
=====redu_chi=====
273.6049
=====best line=====
66.0811 0.172859
=====best sigma=====
8.29643 0.174195
=====norm=====
0.218479 0.420558E-02
=====phoindx=====
0.640227 0.855208E-02
=====pow_norm=====
0.248274 0.901639E-02
=====best line=====
70.8948 0.195854
=====best sigma=====
9.17001 0.196073
=====norm=====
0.218479 par
=====phoindx=====
0.639954 0.818488E-02
=====pow_norm=====
0.248274 par
=====redu_chi=====
3.828081
=====area_flux=====
1.520
=====area_flux_f=====
1.521
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 7 1 640 2000 1057.2976 0 0.218479 0.420558E-02 8.29643 0.174195 0.640227 0.855208E-02 0.248274 0.901639E-02 1.520 640 2000 1134.3168 0 0.218479 0.420558E-02 9.17001 0.196073 0.639954 0.818488E-02 0.248274 0.901639E-02 1.521 3.828081 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:32 12-Jun-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 3.385 +/- 6.8961E-03
Net count rate (cts/s) for file 2 3.385 +/- 6.8961E-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 = 271430.4 using 168 PHA bins.
Reduced chi-squared = 1696.440 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19277.34 using 168 PHA bins.
Reduced chi-squared = 120.4834 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3913.08 -3 83.10 17.07 0.3331 0.9711
0.7305 82.96 16.93 0.9656
1867.52 -2 75.93 17.95 0.3376 0.9322
0.6883 76.23 17.44 0.9336
1494.70 0 76.23 14.07 0.3350 0.9323
0.6874 76.54 15.19 0.9333
1007.07 -1 76.43 11.61 0.2602 0.9222
0.7042 77.27 10.90 0.9229
821.634 -2 76.03 9.970 0.2153 0.8945
0.6532 76.98 10.04 0.8958
778.184 -2 75.49 9.929 0.2173 0.8772
0.6055 76.75 10.04 0.8785
765.488 -3 75.22 9.728 0.2136 0.8291
0.4882 76.47 9.983 0.8317
717.468 -4 75.07 9.718 0.2133 0.8133
0.4629 76.35 9.972 0.8144
717.310 -5 75.07 9.698 0.2131 0.8134
0.4627 76.35 9.963 0.8141
717.309 -6 75.07 9.705 0.2132 0.8133
0.4626 76.35 9.961 0.8140
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.77E-07 | 0.00 0.00 -0.19 0.57 -0.58 0.00 0.00 0.55
7.57E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.06E-06 | 0.00 0.01 -0.98 -0.10 0.12 0.00 0.01 -0.11
3.49E-04 | 0.02 0.00 -0.01 -0.43 -0.81 0.02 0.00 -0.41
1.24E-02 | -0.01 0.28 -0.01 0.00 0.00 -0.06 -0.96 0.00
5.03E-02 | 0.51 -0.60 -0.01 0.01 0.02 0.58 -0.22 0.01
3.70E-02 | -0.82 -0.54 -0.01 -0.01 -0.01 0.11 -0.16 -0.01
3.97E-02 | -0.26 0.52 0.01 0.01 0.01 0.81 0.10 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 75.0670 +/- 0.201476 1
2 2 1 gaussian Sigma keV 9.70455 +/- 0.201128 1
3 3 1 gaussian norm 0.213206 +/- 0.400818E-02 1
4 4 2 powerlaw PhoIndex 0.813339 +/- 0.855773E-02 1
5 5 2 powerlaw norm 0.462644 +/- 0.161487E-01 1
6 6 3 gaussian LineE keV 76.3464 +/- 0.207506 2
7 7 3 gaussian Sigma keV 9.96115 +/- 0.123130 2
8 3 3 gaussian norm 0.213206 = par 3 2
9 8 4 powerlaw PhoIndex 0.814034 +/- 0.820712E-02 2
10 5 4 powerlaw norm 0.462644 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 717.3087 using 168 PHA bins.
Reduced chi-squared = 4.483180 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 ( 4.295) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.295) > 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 1.369 photons ( 1.6546E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.366 photons ( 1.6547E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:32 12-Jun-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 8.049 +/- 1.0635E-02
Net count rate (cts/s) for file 2 8.049 +/- 1.0635E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.665 +/- 1.2675E-02( 58.0% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.665 +/- 1.2675E-02( 58.0% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.1974521E+07 using 198 PHA bins.
Reduced chi-squared = 63023.79 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 98964.09 using 198 PHA bins.
Reduced chi-squared = 520.8636 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
59799.8 -3 110.6 18.40 0.4907 2.806
0.1167 100.6 18.47 2.755
32124.4 -2 96.22 19.30 2.061 9.415
1.9328E-03 100.9 19.35 6.750
29632.9 -1 98.97 19.36 1.998 9.482
4.5209E-04 101.8 19.36 9.147
28204.1 -1 101.2 19.36 1.981 9.497
2.2202E-04 102.6 19.36 9.448
26718.8 -1 103.0 19.37 1.941 9.499
8.4470E-05 103.5 19.37 9.480
25459.1 -1 104.5 19.37 1.907 9.500
4.1922E-05 104.3 19.37 9.493
24122.1 -1 105.8 19.37 1.863 9.500
1.8882E-05 105.2 19.37 9.497
22969.1 -1 107.0 19.37 1.825 9.500
6.0037E-06 106.0 19.37 9.500
21735.2 -1 108.1 19.37 1.779 9.500
2.6563E-06 106.9 19.37 9.500
20534.2 -1 109.3 19.37 1.728 9.500
9.4662E-07 107.9 19.37 9.500
19095.5 -1 111.0 19.37 1.659 9.500
2.8683E-09 109.5 19.37 9.500
18150.0 -1 112.5 19.37 1.594 9.500
3.7766E-11 110.6 19.37 9.500
17927.3 -1 113.0 19.37 1.575 9.500
1.1744E-11 111.0 19.37 9.500
17812.6 -1 113.4 19.37 1.560 9.500
5.1622E-12 111.3 19.37 9.500
17769.4 -1 113.6 19.37 1.552 9.500
1.8622E-12 111.5 19.37 9.500
17681.6 -1 113.9 19.37 1.539 9.500
2.2398E-13 111.7 19.37 9.500
Fit parameter 5 has pegged
17008.5 0 114.4 19.37 1.483 9.500
0.000 111.3 17.80 9.500
Fit parameter 5 has pegged
16334.4 -1 114.9 19.37 1.430 9.500
0.000 112.2 18.46 9.500
Fit parameter 5 has pegged
16173.6 -2 115.5 19.37 1.390 9.500
0.000 113.1 17.68 9.500
Fit parameter 5 has pegged
16102.8 -3 115.6 19.37 1.390 9.500
0.000 113.2 18.10 9.500
Fit parameter 5 has pegged
16061.9 -4 115.8 19.37 1.378 9.500
0.000 113.4 17.81 9.500
Fit parameter 5 has pegged
16057.2 -5 115.8 19.37 1.379 9.500
0.000 113.4 17.95 9.500
Fit parameter 5 has pegged
16051.6 -6 115.8 19.37 1.377 9.500
0.000 113.4 17.88 9.500
Fit parameter 5 has pegged
16047.7 -7 115.8 19.37 1.377 9.500
0.000 113.4 17.90 9.500
Fit parameter 5 has pegged
16042.8 -8 115.9 19.37 1.376 9.500
0.000 113.5 17.88 9.500
Fit parameter 5 has pegged
16028.3 -1 116.0 19.37 1.373 9.500
0.000 113.5 17.87 9.500
Fit parameter 5 has pegged
16027.9 -2 116.0 19.37 1.372 9.500
0.000 113.5 17.87 9.500
Fit parameter 5 has pegged
16026.7 -2 116.0 19.37 1.372 9.500
0.000 113.5 17.87 9.500
Fit parameter 5 has pegged
16024.0 -1 116.0 19.37 1.372 9.500
0.000 113.5 17.87 9.500
Fit parameter 5 has pegged
16022.3 -2 116.0 19.37 1.371 9.500
0.000 113.5 17.86 9.500
Fit parameter 5 has pegged
16019.3 -1 116.0 19.37 1.371 9.500
0.000 113.5 17.86 9.500
Fit parameter 5 has pegged
16016.3 -1 116.1 19.37 1.370 9.500
0.000 113.6 17.85 9.500
Fit parameter 5 has pegged
16013.3 -1 116.1 19.37 1.369 9.500
0.000 113.6 17.85 9.500
Fit parameter 5 has pegged
16011.1 -1 116.1 19.37 1.369 9.500
0.000 113.6 17.85 9.500
Fit parameter 5 has pegged
16004.1 -1 116.2 19.37 1.367 9.500
0.000 113.6 17.84 9.500
Fit parameter 5 has pegged
15987.7 0 116.3 19.37 1.363 9.500
0.000 113.6 17.83 9.500
Fit parameter 5 has pegged
15977.4 0 116.4 19.37 1.361 9.500
0.000 113.6 17.83 9.500
Fit parameter 5 has pegged
15971.6 0 116.5 19.37 1.358 9.500
0.000 113.7 17.82 9.500
Fit parameter 5 has pegged
15967.4 0 116.6 19.37 1.357 9.500
0.000 113.7 17.81 9.500
Fit parameter 5 has pegged
15964.2 0 116.6 19.37 1.355 9.500
0.000 113.7 17.80 9.500
Fit parameter 5 has pegged
15962.7 0 116.6 19.37 1.354 9.500
0.000 113.7 17.79 9.500
Fit parameter 5 has pegged
15961.5 0 116.7 19.37 1.353 9.500
0.000 113.8 17.78 9.500
Fit parameter 5 has pegged
15960.6 0 116.7 19.37 1.353 9.500
0.000 113.8 17.77 9.500
Fit parameter 5 has pegged
15960.0 0 116.7 19.37 1.352 9.500
0.000 113.8 17.77 9.500
Fit parameter 5 has pegged
15958.9 0 116.7 19.37 1.352 9.500
0.000 113.8 17.76 9.500
Fit parameter 5 has pegged
15958.1 0 116.7 19.37 1.351 9.500
0.000 113.8 17.76 9.500
Fit parameter 5 has pegged
15958.0 0 116.7 19.37 1.351 9.500
0.000 113.8 17.76 9.500
Fit parameter 5 has pegged
15957.9 0 116.7 19.37 1.351 9.500
0.000 113.8 17.75 9.500
Fit parameter 5 has pegged
15957.6 0 116.7 19.37 1.350 9.500
0.000 113.8 17.75 9.500
Fit parameter 5 has pegged
15957.3 0 116.7 19.37 1.350 9.500
0.000 113.9 17.75 9.500
Fit parameter 5 has pegged
15956.5 0 116.8 19.37 1.350 9.500
0.000 113.9 17.75 9.500
Fit parameter 5 has pegged
15955.8 0 116.8 19.37 1.350 9.500
0.000 113.9 17.75 9.500
Fit parameter 5 has pegged
15955.3 0 116.8 19.37 1.349 9.500
0.000 113.9 17.75 9.500
Fit parameter 5 has pegged
15954.7 0 116.8 19.37 1.349 9.500
0.000 113.9 17.75 9.500
Fit parameter 5 has pegged
15954.3 0 116.8 19.37 1.349 9.500
0.000 113.9 17.75 9.500
Fit parameter 5 has pegged
15953.9 0 116.8 19.37 1.348 9.500
0.000 113.9 17.75 9.500
Fit parameter 5 has pegged
15953.5 0 116.8 19.37 1.348 9.500
0.000 113.9 17.75 9.500
Fit parameter 5 has pegged
15953.2 0 116.9 19.37 1.348 9.500
0.000 113.9 17.75 9.500
Fit parameter 5 has pegged
15952.9 0 116.9 19.37 1.348 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15952.6 0 116.9 19.37 1.348 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15952.3 0 116.9 19.37 1.347 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15952.1 0 116.9 19.37 1.347 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15951.9 0 116.9 19.37 1.347 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15951.7 0 116.9 19.37 1.347 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15951.6 0 116.9 19.37 1.347 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15951.5 0 116.9 19.37 1.346 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15951.3 0 116.9 19.37 1.346 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15951.3 0 116.9 19.37 1.346 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15951.0 0 116.9 19.37 1.346 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15950.9 0 116.9 19.37 1.346 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15950.9 0 116.9 19.37 1.346 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15950.8 0 117.0 19.37 1.345 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15950.7 0 117.0 19.37 1.345 9.500
0.000 113.9 17.74 9.500
Fit parameter 5 has pegged
15950.5 0 117.0 19.37 1.345 9.500
0.000 113.9 17.73 9.500
Fit parameter 5 has pegged
15950.5 5 117.0 19.37 1.345 9.500
0.000 113.9 17.73 9.500
15950.5 0 117.0 19.37 1.345 9.500
0.000 113.9 17.73 9.500
Fit parameter 5 has pegged
15950.3 0 117.0 19.37 1.345 9.500
0.000 113.9 17.73 9.500
Fit parameter 5 has pegged
15950.3 3 117.0 19.37 1.345 9.500
0.000 113.9 17.73 9.500
15950.3 3 117.0 19.37 1.345 9.500
0.000 113.9 17.73 9.500
Fit parameter 5 has pegged
15950.3 4 117.0 19.37 1.345 9.500
0.000 113.9 17.73 9.500
15950.3 5 117.0 19.37 1.345 9.500
0.000 113.9 17.73 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.13E-05 | -0.01 0.00 -1.00 -0.01 0.01
4.03E-03 | 0.01 0.00 0.00 0.47 0.88
1.51E-02 | -0.97 -0.07 0.01 0.22 -0.11
2.90E-02 | 0.24 0.05 -0.02 0.85 -0.46
1.96E+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 116.969 +/- 0.169956 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.39394 1
3 3 1 gaussian norm 1.34494 +/- 0.637786E-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 113.899 +/- 0.156604 2
7 7 3 gaussian Sigma keV 17.7333 +/- 0.998049E-01 2
8 3 3 gaussian norm 1.34494 = par 3 2
9 8 4 powerlaw PhoIndex 9.50002 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 15950.31 using 198 PHA bins.
Reduced chi-squared = 83.94898 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 ( 80.966) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 80.966) > 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 200. reset by matrix bound to 198.
Model flux 1.089 photons ( 2.1537E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.054 photons ( 2.0347E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:33 12-Jun-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 3.385 +/- 6.8961E-03
Net count rate (cts/s) for file 2 3.385 +/- 6.8961E-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 = 343832.4 using 168 PHA bins.
Reduced chi-squared = 2148.953 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 32613.99 using 168 PHA bins.
Reduced chi-squared = 203.8375 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3997.94 -3 85.96 14.68 0.2003 0.8945
0.6534 85.70 14.22 0.8888
2770.96 -4 70.97 17.59 0.2804 0.8214
0.4221 71.68 16.83 0.8248
2717.35 -2 79.60 5.789 9.8434E-02 0.8199
0.5034 79.35 4.678 0.8160
1138.09 -3 76.50 9.873 0.1575 0.8288
0.5143 78.21 8.415 0.8284
939.925 -4 74.63 9.944 0.2126 0.8196
0.4758 76.38 12.74 0.8209
732.398 -5 75.22 9.223 0.2001 0.8141
0.4692 76.53 9.698 0.8147
724.124 -6 74.98 9.863 0.2149 0.8129
0.4614 76.33 10.40 0.8137
717.810 -7 75.11 9.618 0.2115 0.8137
0.4639 76.36 9.976 0.8143
717.334 -8 75.05 9.727 0.2134 0.8132
0.4623 76.34 9.969 0.8139
717.313 -9 75.07 9.693 0.2130 0.8134
0.4628 76.35 9.961 0.8141
717.309 -10 75.07 9.707 0.2132 0.8133
0.4626 76.35 9.962 0.8140
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.77E-07 | 0.00 0.00 -0.19 0.57 -0.58 0.00 0.00 0.55
7.57E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.05E-06 | 0.00 0.01 -0.98 -0.10 0.12 0.00 0.01 -0.11
3.49E-04 | 0.02 0.00 -0.01 -0.43 -0.81 0.02 0.00 -0.41
1.41E-02 | -0.01 0.32 -0.01 0.00 0.00 -0.07 -0.94 0.00
5.06E-02 | 0.50 -0.60 -0.01 0.01 0.02 0.57 -0.25 0.01
3.71E-02 | -0.84 -0.50 -0.01 -0.01 -0.01 0.12 -0.18 -0.01
3.97E-02 | -0.22 0.53 0.01 0.01 0.01 0.81 0.12 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 75.0658 +/- 0.201366 1
2 2 1 gaussian Sigma keV 9.70658 +/- 0.200969 1
3 3 1 gaussian norm 0.213242 +/- 0.400481E-02 1
4 4 2 powerlaw PhoIndex 0.813329 +/- 0.855695E-02 1
5 5 2 powerlaw norm 0.462615 +/- 0.161488E-01 1
6 6 3 gaussian LineE keV 76.3460 +/- 0.207496 2
7 7 3 gaussian Sigma keV 9.96152 +/- 0.132357 2
8 3 3 gaussian norm 0.213242 = par 3 2
9 8 4 powerlaw PhoIndex 0.814026 +/- 0.820635E-02 2
10 5 4 powerlaw norm 0.462615 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 717.3087 using 168 PHA bins.
Reduced chi-squared = 4.483179 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 ( 4.295) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.295) > 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 1.369 photons ( 1.6546E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.366 photons ( 1.6547E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
120.4834
=====best line=====
75.0670 0.201476
=====best sigma=====
9.70455 0.201128
=====norm=====
0.213206 0.400818E-02
=====phoindx=====
0.813339 0.855773E-02
=====pow_norm=====
0.462644 0.161487E-01
=====best line=====
76.3464 0.207506
=====best sigma=====
9.96115 0.123130
=====norm=====
0.213206 par
=====phoindx=====
0.814034 0.820712E-02
=====pow_norm=====
0.462644 par
=====redu_chi=====
4.483180
=====area_flux=====
1.369
=====area_flux_f=====
1.366
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 8 1 640 2000 1201.072 0 0.213206 0.400818E-02 9.70455 0.201128 0.813339 0.855773E-02 0.462644 0.161487E-01 1.369 640 2000 1221.5424 0 0.213206 0.400818E-02 9.96115 0.123130 0.814034 0.820712E-02 0.462644 0.161487E-01 1.366 4.483180 1
=====redu_chi=====
520.8636
=====best line=====
116.969 0.169956
=====best sigma=====
19.3655 1.39394
=====norm=====
1.34494 0.637786E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.899 0.156604
=====best sigma=====
17.7333 0.998049E-01
=====norm=====
1.34494 par
=====phoindx=====
9.50002 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
83.94898
=====area_flux=====
1.089
=====area_flux_f=====
1.054
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 8 1 1600 3200 1871.504 0 1.34494 0.637786E-02 309.848 22.30304 9.50000 -1.00000 0.00000 -1.00000 1.089 1600 3200 1822.384 0 1.34494 0.637786E-02 283.7328 1.5968784 9.50002 -1.00000 0.00000 -1.00000 1.054 83.94898 1
=====redu_chi=====
203.8375
=====best line=====
75.0658 0.201366
=====best sigma=====
9.70658 0.200969
=====norm=====
0.213242 0.400481E-02
=====phoindx=====
0.813329 0.855695E-02
=====pow_norm=====
0.462615 0.161488E-01
=====best line=====
76.3460 0.207496
=====best sigma=====
9.96152 0.132357
=====norm=====
0.213242 par
=====phoindx=====
0.814026 0.820635E-02
=====pow_norm=====
0.462615 par
=====redu_chi=====
4.483179
=====area_flux=====
1.369
=====area_flux_f=====
1.366
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 8 1 640 2000 1201.0528 0 0.213242 0.400481E-02 9.70658 0.200969 0.813329 0.855695E-02 0.462615 0.161488E-01 1.369 640 2000 1221.536 0 0.213242 0.400481E-02 9.96152 0.132357 0.814026 0.820635E-02 0.462615 0.161488E-01 1.366 4.483179 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:35 12-Jun-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 3.189 +/- 6.6944E-03
Net count rate (cts/s) for file 2 3.189 +/- 6.6944E-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 = 315826.1 using 168 PHA bins.
Reduced chi-squared = 1973.913 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17997.85 using 168 PHA bins.
Reduced chi-squared = 112.4865 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3763.84 -3 83.07 16.49 0.2668 0.9749
0.7131 83.28 16.23 0.9680
1831.15 -3 76.20 8.263 0.1424 0.8172
0.4312 77.16 8.434 0.8223
1509.62 -4 77.06 9.542 0.1942 0.9137
0.6124 78.50 11.89 0.9095
670.324 -5 77.19 8.704 0.1834 0.9136
0.6713 78.55 9.754 0.9130
653.810 -6 77.02 9.217 0.1942 0.9158
0.6736 78.42 9.659 0.9159
653.321 -7 77.09 9.069 0.1930 0.9156
0.6741 78.44 9.638 0.9159
653.275 -8 77.07 9.115 0.1936 0.9157
0.6740 78.43 9.658 0.9160
653.271 -9 77.07 9.100 0.1934 0.9157
0.6740 78.43 9.649 0.9159
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.10E-07 | 0.00 0.00 -0.23 0.63 -0.44 0.00 0.00 0.60
8.04E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.95E-06 | 0.00 0.01 -0.97 -0.14 0.12 0.00 0.01 -0.14
6.52E-04 | 0.03 0.01 -0.02 -0.33 -0.89 0.03 0.01 -0.31
2.61E-02 | -0.15 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
5.50E-02 | 0.23 -0.56 -0.01 0.00 0.01 0.38 -0.70 0.00
3.61E-02 | 0.95 -0.04 0.00 0.01 0.02 -0.20 0.22 0.01
4.13E-02 | 0.13 0.30 0.00 0.01 0.03 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 77.0749 +/- 0.192155 1
2 2 1 gaussian Sigma keV 9.09995 +/- 0.190928 1
3 3 1 gaussian norm 0.193373 +/- 0.362730E-02 1
4 4 2 powerlaw PhoIndex 0.915661 +/- 0.887937E-02 1
5 5 2 powerlaw norm 0.673978 +/- 0.240402E-01 1
6 6 3 gaussian LineE keV 78.4342 +/- 0.207092 2
7 7 3 gaussian Sigma keV 9.64929 +/- 0.205366 2
8 3 3 gaussian norm 0.193373 = par 3 2
9 8 4 powerlaw PhoIndex 0.915928 +/- 0.852670E-02 2
10 5 4 powerlaw norm 0.673978 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 653.2705 using 168 PHA bins.
Reduced chi-squared = 4.082941 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 ( 3.912) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.912) > 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 ( 1.5413E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.280 photons ( 1.5440E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:35 12-Jun-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 7.497 +/- 1.0264E-02
Net count rate (cts/s) for file 2 7.497 +/- 1.0264E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.308 +/- 1.2254E-02( 57.5% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.308 +/- 1.2254E-02( 57.5% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.1485875E+07 using 198 PHA bins.
Reduced chi-squared = 60451.97 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 107426.1 using 198 PHA bins.
Reduced chi-squared = 565.4008 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
64248.4 -3 110.4 18.24 0.5118 2.790
0.1285 101.6 18.25 2.740
35716.8 -2 98.92 19.18 2.084 7.298
5.2263E-02 101.8 19.20 8.422
32815.0 -1 101.2 19.29 2.020 9.456
2.9307E-03 102.8 19.30 9.317
30585.7 -1 103.3 19.35 1.980 9.489
1.0678E-03 104.0 19.34 9.452
28272.3 -1 105.2 19.36 1.924 9.498
5.0849E-04 105.2 19.36 9.483
26014.4 -1 107.1 19.36 1.864 9.499
1.3847E-04 106.5 19.37 9.493
24162.6 -1 108.7 19.36 1.814 9.500
3.0413E-05 107.7 19.37 9.499
22258.8 -1 110.2 19.37 1.749 9.500
1.1880E-06 109.0 19.37 9.500
21026.8 -1 111.5 19.37 1.704 9.500
1.9325E-07 110.0 19.37 9.500
20183.2 -1 112.6 19.37 1.666 9.500
6.4412E-08 110.9 19.37 9.500
19565.1 -1 113.5 19.37 1.629 9.500
3.2094E-08 111.6 19.37 9.500
18847.1 -1 115.1 19.37 1.556 9.500
5.8054E-10 113.0 19.37 9.500
18811.9 -1 115.4 19.37 1.544 9.500
1.1813E-10 113.3 19.37 9.500
17923.8 0 115.9 19.37 1.502 9.500
3.8801E-11 113.1 19.08 9.500
17662.4 0 116.3 19.37 1.475 9.500
7.7756E-13 113.2 19.01 9.500
17524.7 0 116.7 19.37 1.458 9.500
1.8649E-13 113.3 18.94 9.500
Fit parameter 5 has pegged
17143.3 0 117.0 19.37 1.428 9.500
0.000 113.4 18.28 9.500
Fit parameter 5 has pegged
17050.6 -1 117.0 19.37 1.403 9.500
0.000 114.2 17.98 9.500
Fit parameter 5 has pegged
17038.3 -2 117.0 19.37 1.397 9.500
0.000 114.5 17.91 9.500
Fit parameter 5 has pegged
17038.0 -2 117.0 19.37 1.396 9.500
0.000 114.6 17.87 9.500
Fit parameter 5 has pegged
17032.6 -3 117.0 19.37 1.395 9.500
0.000 114.6 17.87 9.500
Fit parameter 5 has pegged
17018.6 -1 117.1 19.37 1.393 9.500
0.000 114.7 17.86 9.500
Fit parameter 5 has pegged
17008.4 -1 117.2 19.37 1.390 9.500
0.000 114.7 17.85 9.500
Fit parameter 5 has pegged
17002.7 -1 117.2 19.37 1.389 9.500
0.000 114.7 17.83 9.500
Fit parameter 5 has pegged
17001.9 -1 117.2 19.37 1.388 9.500
0.000 114.7 17.83 9.500
Fit parameter 5 has pegged
17000.9 -1 117.2 19.37 1.388 9.500
0.000 114.7 17.83 9.500
Fit parameter 5 has pegged
16983.4 0 117.4 19.37 1.385 9.500
0.000 114.8 17.82 9.500
Fit parameter 5 has pegged
16973.2 0 117.5 19.37 1.382 9.500
0.000 114.8 17.82 9.500
Fit parameter 5 has pegged
16966.3 0 117.6 19.37 1.380 9.500
0.000 114.8 17.81 9.500
Fit parameter 5 has pegged
16961.8 0 117.6 19.37 1.378 9.500
0.000 114.8 17.80 9.500
Fit parameter 5 has pegged
16959.0 0 117.7 19.37 1.377 9.500
0.000 114.8 17.79 9.500
Fit parameter 5 has pegged
16957.8 0 117.7 19.37 1.376 9.500
0.000 114.9 17.78 9.500
Fit parameter 5 has pegged
16956.6 0 117.7 19.37 1.376 9.500
0.000 114.9 17.78 9.500
Fit parameter 5 has pegged
16956.1 0 117.7 19.37 1.375 9.500
0.000 114.9 17.77 9.500
Fit parameter 5 has pegged
16955.2 0 117.7 19.37 1.374 9.500
0.000 114.9 17.77 9.500
Fit parameter 5 has pegged
16954.3 0 117.7 19.37 1.374 9.500
0.000 114.9 17.76 9.500
Fit parameter 5 has pegged
16954.0 0 117.7 19.37 1.374 9.500
0.000 114.9 17.76 9.500
Fit parameter 5 has pegged
16953.4 0 117.8 19.37 1.373 9.500
0.000 114.9 17.76 9.500
Fit parameter 5 has pegged
16953.2 0 117.8 19.37 1.373 9.500
0.000 114.9 17.76 9.500
Fit parameter 5 has pegged
16952.4 0 117.8 19.37 1.373 9.500
0.000 114.9 17.76 9.500
Fit parameter 5 has pegged
16952.2 0 117.8 19.37 1.373 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16951.5 0 117.8 19.37 1.372 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16950.7 0 117.8 19.37 1.372 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16950.1 0 117.8 19.37 1.372 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16949.5 0 117.8 19.37 1.371 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16948.9 0 117.9 19.37 1.371 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16948.7 0 117.9 19.37 1.371 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16948.2 0 117.9 19.37 1.371 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16947.8 0 117.9 19.37 1.370 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16947.4 0 117.9 19.37 1.370 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16947.2 0 117.9 19.37 1.370 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16946.9 0 117.9 19.37 1.370 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16946.7 0 117.9 19.37 1.370 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16946.5 0 117.9 19.37 1.369 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16946.2 0 117.9 19.37 1.369 9.500
0.000 115.0 17.74 9.500
Fit parameter 5 has pegged
16946.1 0 118.0 19.37 1.369 9.500
0.000 115.0 17.74 9.500
Fit parameter 5 has pegged
16945.9 0 118.0 19.37 1.369 9.500
0.000 115.0 17.74 9.500
Fit parameter 5 has pegged
16945.8 0 118.0 19.37 1.369 9.500
0.000 115.0 17.74 9.500
Fit parameter 5 has pegged
16945.6 0 118.0 19.37 1.368 9.500
0.000 115.0 17.74 9.500
Fit parameter 5 has pegged
16945.6 1 118.0 19.37 1.368 9.500
0.000 115.0 17.74 9.500
16945.3 0 118.0 19.37 1.368 9.500
0.000 115.0 17.75 9.500
Fit parameter 5 has pegged
16945.3 4 118.0 19.37 1.368 9.500
0.000 115.0 17.75 9.500
16945.3 4 118.0 19.37 1.368 9.500
0.000 115.0 17.75 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.02E-05 | -0.01 0.00 -1.00 -0.01 0.01
3.80E-03 | 0.01 0.00 0.00 0.48 0.88
1.40E-02 | -0.97 -0.07 0.01 0.21 -0.11
2.56E-02 | 0.23 0.05 -0.02 0.85 -0.47
1.75E+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 117.994 +/- 0.158189 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.31967 1
3 3 1 gaussian norm 1.36830 +/- 0.598313E-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 114.998 +/- 0.145810 2
7 7 3 gaussian Sigma keV 17.7485 +/- 0.955347E-01 2
8 3 3 gaussian norm 1.36830 = 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 = 16945.31 using 198 PHA bins.
Reduced chi-squared = 89.18585 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 ( 86.017) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 86.017) > 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 1.127 photons ( 2.2402E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.096 photons ( 2.1277E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:35 12-Jun-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 3.189 +/- 6.6944E-03
Net count rate (cts/s) for file 2 3.189 +/- 6.6944E-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 = 387032.1 using 168 PHA bins.
Reduced chi-squared = 2418.951 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 29536.44 using 168 PHA bins.
Reduced chi-squared = 184.6028 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5117.39 -3 85.66 14.30 0.1903 0.9775
0.7465 85.75 13.61 0.9681
2368.11 -4 73.18 14.92 0.2074 0.8515
0.4734 74.79 13.72 0.8558
1470.62 -2 80.09 8.093 0.1236 0.8682
0.5682 79.97 9.026 0.8641
991.094 -3 76.20 12.22 0.1920 0.9090
0.6466 77.81 10.45 0.9076
775.393 -4 78.34 9.482 0.1737 0.9235
0.7044 78.75 9.810 0.9231
654.867 -5 76.90 9.203 0.1935 0.9150
0.6727 78.39 9.616 0.9157
653.345 -6 77.09 9.061 0.1930 0.9156
0.6741 78.44 9.643 0.9159
653.276 -7 77.07 9.117 0.1936 0.9157
0.6740 78.43 9.658 0.9160
653.270 -8 77.08 9.099 0.1934 0.9157
0.6740 78.43 9.649 0.9159
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.10E-07 | 0.00 0.00 -0.23 0.63 -0.44 0.00 0.00 0.60
8.04E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.95E-06 | 0.00 0.01 -0.97 -0.14 0.12 0.00 0.01 -0.14
6.52E-04 | 0.03 0.01 -0.02 -0.33 -0.89 0.03 0.01 -0.31
2.61E-02 | -0.15 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
5.51E-02 | 0.23 -0.56 -0.01 0.00 0.01 0.38 -0.70 0.00
3.62E-02 | 0.95 -0.04 0.00 0.01 0.02 -0.20 0.22 0.01
4.13E-02 | 0.13 0.30 0.00 0.01 0.03 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 77.0750 +/- 0.192212 1
2 2 1 gaussian Sigma keV 9.09942 +/- 0.190970 1
3 3 1 gaussian norm 0.193367 +/- 0.362767E-02 1
4 4 2 powerlaw PhoIndex 0.915659 +/- 0.887962E-02 1
5 5 2 powerlaw norm 0.673976 +/- 0.240406E-01 1
6 6 3 gaussian LineE keV 78.4342 +/- 0.207069 2
7 7 3 gaussian Sigma keV 9.64907 +/- 0.205355 2
8 3 3 gaussian norm 0.193367 = par 3 2
9 8 4 powerlaw PhoIndex 0.915926 +/- 0.852694E-02 2
10 5 4 powerlaw norm 0.673976 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 653.2702 using 168 PHA bins.
Reduced chi-squared = 4.082939 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 ( 3.912) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.912) > 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 ( 1.5413E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.280 photons ( 1.5440E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
112.4865
=====best line=====
77.0749 0.192155
=====best sigma=====
9.09995 0.190928
=====norm=====
0.193373 0.362730E-02
=====phoindx=====
0.915661 0.887937E-02
=====pow_norm=====
0.673978 0.240402E-01
=====best line=====
78.4342 0.207092
=====best sigma=====
9.64929 0.205366
=====norm=====
0.193373 par
=====phoindx=====
0.915928 0.852670E-02
=====pow_norm=====
0.673978 par
=====redu_chi=====
4.082941
=====area_flux=====
1.281
=====area_flux_f=====
1.280
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 9 1 640 2000 1233.1984 0 0.193373 0.362730E-02 9.09995 0.190928 0.915661 0.887937E-02 0.673978 0.240402E-01 1.281 640 2000 1254.9472 0 0.193373 0.362730E-02 9.64929 0.205366 0.915928 0.852670E-02 0.673978 0.240402E-01 1.280 4.082941 1
=====redu_chi=====
565.4008
=====best line=====
117.994 0.158189
=====best sigma=====
19.3655 1.31967
=====norm=====
1.36830 0.598313E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.998 0.145810
=====best sigma=====
17.7485 0.955347E-01
=====norm=====
1.36830 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
89.18585
=====area_flux=====
1.127
=====area_flux_f=====
1.096
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 9 1 1600 3200 1887.904 0 1.36830 0.598313E-02 309.848 21.11472 9.50000 -1.00000 0.00000 -1.00000 1.127 1600 3200 1839.968 0 1.36830 0.598313E-02 283.976 1.5285552 9.50000 -1.00000 0.00000 -1.00000 1.096 89.18585 1
=====redu_chi=====
184.6028
=====best line=====
77.0750 0.192212
=====best sigma=====
9.09942 0.190970
=====norm=====
0.193367 0.362767E-02
=====phoindx=====
0.915659 0.887962E-02
=====pow_norm=====
0.673976 0.240406E-01
=====best line=====
78.4342 0.207069
=====best sigma=====
9.64907 0.205355
=====norm=====
0.193367 par
=====phoindx=====
0.915926 0.852694E-02
=====pow_norm=====
0.673976 par
=====redu_chi=====
4.082939
=====area_flux=====
1.281
=====area_flux_f=====
1.280
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 9 1 640 2000 1233.2 0 0.193367 0.362767E-02 9.09942 0.190970 0.915659 0.887962E-02 0.673976 0.240406E-01 1.281 640 2000 1254.9472 0 0.193367 0.362767E-02 9.64907 0.205355 0.915926 0.852694E-02 0.673976 0.240406E-01 1.280 4.082939 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:36 12-Jun-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 3.242 +/- 6.7489E-03
Net count rate (cts/s) for file 2 3.242 +/- 6.7489E-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 = 340012.1 using 168 PHA bins.
Reduced chi-squared = 2125.075 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21105.59 using 168 PHA bins.
Reduced chi-squared = 131.9099 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7896.37 -3 82.07 16.40 0.2660 1.039
0.8128 81.81 16.50 1.031
2118.51 -3 76.02 7.118 0.1341 0.8604
0.5701 74.88 7.146 0.8681
1476.61 -1 76.50 9.891 0.1908 0.8733
0.5606 76.33 12.01 0.8757
1075.22 -2 76.87 9.140 0.2048 0.9055
0.6245 76.26 9.744 0.9055
1004.33 -2 76.83 9.768 0.2174 0.9303
0.6880 76.59 10.44 0.9307
951.509 -2 76.99 9.494 0.2138 0.9486
0.7480 76.67 9.964 0.9491
922.629 -2 77.03 9.638 0.2167 0.9637
0.7974 76.77 9.944 0.9644
905.557 -2 77.11 9.606 0.2169 0.9755
0.8396 76.84 9.932 0.9763
898.778 -3 77.26 9.661 0.2190 1.009
0.9553 77.02 9.974 1.009
879.289 -4 77.33 9.667 0.2195 1.020
1.013 77.08 9.966 1.021
877.949 -5 77.33 9.675 0.2197 1.020
1.017 77.08 9.966 1.022
877.947 -6 77.33 9.673 0.2197 1.020
1.017 77.08 9.965 1.022
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.23E-07 | 0.00 0.00 -0.25 0.67 -0.31 0.00 0.00 0.63
8.54E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
7.49E-06 | 0.00 0.01 -0.97 -0.17 0.09 0.00 0.02 -0.17
1.36E-03 | 0.05 0.02 -0.01 -0.23 -0.94 0.05 0.03 -0.22
9.18E-03 | 0.00 -0.25 0.01 0.01 0.03 0.07 0.97 0.01
4.24E-02 | 0.52 -0.56 -0.01 0.01 0.04 0.62 -0.19 0.01
3.11E-02 | -0.78 -0.61 -0.01 -0.01 -0.05 0.05 -0.16 -0.01
3.45E-02 | 0.36 -0.50 -0.01 -0.01 -0.03 -0.78 -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 77.3331 +/- 0.185661 1
2 2 1 gaussian Sigma keV 9.67273 +/- 0.184894 1
3 3 1 gaussian norm 0.219700 +/- 0.382797E-02 1
4 4 2 powerlaw PhoIndex 1.02030 +/- 0.918111E-02 1
5 5 2 powerlaw norm 1.01702 +/- 0.373330E-01 1
6 6 3 gaussian LineE keV 77.0847 +/- 0.193144 2
7 7 3 gaussian Sigma keV 9.96512 +/- 0.105121 2
8 3 3 gaussian norm 0.219700 = par 3 2
9 8 4 powerlaw PhoIndex 1.02154 +/- 0.880536E-02 2
10 5 4 powerlaw norm 1.01702 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 877.9473 using 168 PHA bins.
Reduced chi-squared = 5.487170 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 ( 5.257) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.257) > 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 1.272 photons ( 1.5177E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.266 photons ( 1.5101E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:36 12-Jun-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 7.766 +/- 1.0446E-02
Net count rate (cts/s) for file 2 7.766 +/- 1.0446E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.525 +/- 1.2437E-02( 58.3% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.525 +/- 1.2437E-02( 58.3% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.0739610E+07 using 198 PHA bins.
Reduced chi-squared = 56524.26 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 106691.5 using 198 PHA bins.
Reduced chi-squared = 561.5344 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
65609.7 -3 108.3 19.33 0.4772 2.820
0.1442 104.0 19.33 2.767
32195.3 -2 104.0 19.35 1.939 8.626
2.4915E-02 104.2 19.35 6.390
30209.5 -1 105.3 19.36 1.879 9.200
6.2331E-03 104.7 19.37 8.443
29115.4 -1 106.4 19.36 1.856 9.432
2.2369E-03 105.4 19.37 9.461
27995.6 -1 107.3 19.36 1.829 9.488
3.4716E-04 106.0 19.37 9.493
27191.9 -1 108.1 19.37 1.811 9.497
1.6271E-04 106.6 19.37 9.497
26362.1 -1 108.7 19.37 1.789 9.499
6.3060E-05 107.1 19.37 9.499
25558.6 -1 109.3 19.37 1.767 9.500
9.5819E-06 107.6 19.37 9.500
24499.1 -1 110.0 19.37 1.733 9.500
2.6194E-06 108.3 19.37 9.500
23972.7 -1 110.5 19.37 1.720 9.500
7.8236E-07 108.7 19.37 9.500
23431.6 -1 110.9 19.37 1.704 9.500
2.9254E-07 109.1 19.37 9.500
23061.6 -1 111.3 19.37 1.693 9.500
4.4572E-08 109.4 19.37 9.500
19858.0 0 113.5 19.37 1.540 9.500
5.6274E-10 111.1 19.37 9.500
19163.7 0 114.4 19.37 1.500 9.500
2.7508E-10 111.8 19.37 9.500
18721.4 0 115.2 19.37 1.471 9.500
1.2728E-10 112.4 19.37 9.500
18439.0 0 115.8 19.37 1.448 9.500
5.1774E-11 112.8 19.37 9.500
18268.0 0 116.3 19.37 1.430 9.500
1.3387E-11 113.2 19.37 9.500
18165.4 0 116.7 19.37 1.416 9.500
3.7097E-12 113.5 19.37 9.500
18105.0 0 117.0 19.37 1.405 9.500
1.2670E-12 113.7 19.37 9.500
18075.1 0 117.3 19.37 1.397 9.500
3.3334E-14 113.9 19.37 9.500
Fit parameter 5 has pegged
17878.3 0 117.5 19.37 1.378 9.500
0.000 113.8 18.71 9.500
Fit parameter 5 has pegged
17831.8 0 117.5 19.37 1.369 9.500
0.000 114.0 18.80 9.500
Fit parameter 5 has pegged
17811.5 0 117.6 19.37 1.363 9.500
0.000 114.1 18.79 9.500
Fit parameter 5 has pegged
17798.7 0 117.6 19.37 1.360 9.500
0.000 114.2 18.76 9.500
Fit parameter 5 has pegged
17787.7 0 117.7 19.37 1.356 9.500
0.000 114.2 18.73 9.500
Fit parameter 5 has pegged
17780.3 0 117.7 19.37 1.354 9.500
0.000 114.3 18.72 9.500
Fit parameter 5 has pegged
17774.5 0 117.8 19.37 1.352 9.500
0.000 114.3 18.69 9.500
Fit parameter 5 has pegged
17770.2 0 117.8 19.37 1.351 9.500
0.000 114.4 18.68 9.500
Fit parameter 5 has pegged
17766.5 0 117.8 19.37 1.350 9.500
0.000 114.4 18.67 9.500
Fit parameter 5 has pegged
17763.1 0 117.8 19.37 1.349 9.500
0.000 114.5 18.65 9.500
Fit parameter 5 has pegged
17761.5 0 117.8 19.37 1.348 9.500
0.000 114.5 18.64 9.500
Fit parameter 5 has pegged
17759.2 0 117.9 19.37 1.347 9.500
0.000 114.5 18.63 9.500
Fit parameter 5 has pegged
17758.1 0 117.9 19.37 1.347 9.500
0.000 114.5 18.63 9.500
Fit parameter 5 has pegged
17755.6 0 117.9 19.37 1.346 9.500
0.000 114.5 18.62 9.500
Fit parameter 5 has pegged
17755.5 0 117.9 19.37 1.346 9.500
0.000 114.5 18.62 9.500
Fit parameter 5 has pegged
17754.9 0 117.9 19.37 1.345 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17751.3 0 117.9 19.37 1.345 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17748.1 0 118.0 19.37 1.344 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17745.2 0 118.0 19.37 1.343 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17742.6 0 118.0 19.37 1.342 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17740.3 0 118.1 19.37 1.342 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17738.0 0 118.1 19.37 1.341 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17736.2 0 118.1 19.37 1.341 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17734.5 0 118.1 19.37 1.340 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17732.9 0 118.2 19.37 1.339 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17731.4 0 118.2 19.37 1.339 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
17730.2 0 118.2 19.37 1.338 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
17729.0 0 118.2 19.37 1.338 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
17727.8 0 118.3 19.37 1.337 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
17727.0 0 118.3 19.37 1.337 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
17726.0 0 118.3 19.37 1.337 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
17725.2 0 118.3 19.37 1.336 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
17724.3 0 118.3 19.37 1.336 9.500
0.000 114.6 18.59 9.500
Fit parameter 5 has pegged
17723.8 0 118.3 19.37 1.335 9.500
0.000 114.6 18.59 9.500
Fit parameter 5 has pegged
17723.1 0 118.3 19.37 1.335 9.500
0.000 114.6 18.59 9.500
Fit parameter 5 has pegged
17722.4 0 118.4 19.37 1.335 9.500
0.000 114.6 18.59 9.500
Fit parameter 5 has pegged
17721.8 0 118.4 19.37 1.334 9.500
0.000 114.6 18.59 9.500
Fit parameter 5 has pegged
17721.4 0 118.4 19.37 1.334 9.500
0.000 114.6 18.59 9.500
Fit parameter 5 has pegged
17720.9 0 118.4 19.37 1.334 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
17720.4 0 118.4 19.37 1.333 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
17720.1 0 118.4 19.37 1.333 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
17719.6 0 118.4 19.37 1.333 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
17719.2 0 118.4 19.37 1.333 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
17718.9 0 118.4 19.37 1.332 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
17718.6 0 118.4 19.37 1.332 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
17718.3 0 118.4 19.37 1.332 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
17718.0 0 118.5 19.37 1.332 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
17717.7 0 118.5 19.37 1.331 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
17717.6 0 118.5 19.37 1.331 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
17717.3 0 118.5 19.37 1.331 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
17717.1 0 118.5 19.37 1.331 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
17716.8 0 118.5 19.37 1.331 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
17716.7 0 118.5 19.37 1.330 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
17716.5 0 118.5 19.37 1.330 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
17716.3 0 118.5 19.37 1.330 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
17716.1 0 118.5 19.37 1.330 9.500
0.000 114.7 18.55 9.500
Fit parameter 5 has pegged
17716.0 0 118.5 19.37 1.330 9.500
0.000 114.7 18.55 9.500
Fit parameter 5 has pegged
17715.9 0 118.5 19.37 1.330 9.500
0.000 114.7 18.55 9.500
Fit parameter 5 has pegged
17715.8 0 118.5 19.37 1.329 9.500
0.000 114.7 18.55 9.500
Fit parameter 5 has pegged
17715.7 0 118.5 19.37 1.329 9.500
0.000 114.7 18.55 9.500
Fit parameter 5 has pegged
17715.5 0 118.5 19.37 1.329 9.500
0.000 114.7 18.55 9.500
Fit parameter 5 has pegged
17715.4 0 118.5 19.37 1.329 9.500
0.000 114.8 18.55 9.500
Fit parameter 5 has pegged
17715.2 0 118.5 19.37 1.329 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
17715.2 0 118.5 19.37 1.329 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
17714.9 0 118.5 19.37 1.329 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
17714.9 0 118.5 19.37 1.329 9.500
0.000 114.8 18.54 9.500
17714.7 0 118.5 19.37 1.328 9.500
0.000 114.8 18.55 9.500
Fit parameter 5 has pegged
17714.7 0 118.5 19.37 1.328 9.500
0.000 114.8 18.54 9.500
17714.6 0 118.5 19.37 1.328 9.500
0.000 114.8 18.55 9.500
Fit parameter 5 has pegged
17714.4 0 118.5 19.37 1.328 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
17714.4 0 118.5 19.37 1.328 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
17714.3 0 118.5 19.37 1.328 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
17714.2 0 118.5 19.37 1.328 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
17714.1 0 118.6 19.37 1.328 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
17714.1 0 118.6 19.37 1.328 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
17714.0 1 118.6 19.37 1.328 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
17713.9 0 118.6 19.37 1.327 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
17713.9 4 118.6 19.37 1.327 9.500
0.000 114.8 18.53 9.500
17713.9 0 118.6 19.37 1.327 9.500
0.000 114.8 18.53 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.92E-05 | -0.01 0.00 -1.00 -0.01 0.00
9.97E-03 | 0.13 0.00 0.01 -0.88 -0.47
1.49E-02 | -0.99 -0.06 0.01 -0.07 -0.14
6.59E-02 | 0.08 0.05 -0.01 0.48 -0.87
1.94E+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 118.555 +/- 0.155480 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.38932 1
3 3 1 gaussian norm 1.32730 +/- 0.598103E-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 114.807 +/- 0.156354 2
7 7 3 gaussian Sigma keV 18.5293 +/- 0.236162 2
8 3 3 gaussian norm 1.32730 = 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 = 17713.93 using 198 PHA bins.
Reduced chi-squared = 93.23120 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 ( 89.918) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 89.918) > 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 1.103 photons ( 2.1987E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.046 photons ( 2.0377E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:36 12-Jun-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 3.242 +/- 6.7489E-03
Net count rate (cts/s) for file 2 3.242 +/- 6.7489E-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 = 412401.8 using 168 PHA bins.
Reduced chi-squared = 2577.511 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 32195.31 using 168 PHA bins.
Reduced chi-squared = 201.2207 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
15019.2 -3 85.14 14.00 0.1886 1.074
0.8894 85.00 13.97 1.062
2680.09 -4 72.41 14.24 0.2299 0.9160
0.6733 71.57 14.48 0.9240
1580.64 -2 79.95 9.013 0.1577 0.9528
0.7847 78.95 9.124 0.9528
1512.40 -3 76.64 13.22 0.2188 1.009
0.9450 76.69 12.45 1.008
1200.28 -4 78.98 9.171 0.1711 1.025
1.070 77.87 9.495 1.025
1163.76 -5 76.99 11.82 0.2229 1.025
1.036 76.95 11.76 1.026
972.477 -6 78.05 9.661 0.1944 1.019
1.034 77.39 9.762 1.020
888.288 -7 77.23 9.814 0.2211 1.021
1.020 77.05 10.46 1.022
878.730 -8 77.37 9.570 0.2175 1.019
1.016 77.10 9.970 1.021
878.010 -9 77.32 9.712 0.2201 1.020
1.017 77.08 9.972 1.022
877.964 -10 77.34 9.657 0.2195 1.020
1.017 77.09 9.964 1.021
877.949 -11 77.33 9.681 0.2198 1.020
1.017 77.08 9.967 1.022
877.948 -12 77.33 9.670 0.2197 1.020
1.017 77.08 9.965 1.022
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.23E-07 | 0.00 0.00 -0.25 0.67 -0.31 0.00 0.00 0.63
8.54E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
7.49E-06 | 0.00 0.01 -0.97 -0.17 0.09 0.00 0.02 -0.17
1.36E-03 | 0.05 0.02 -0.01 -0.23 -0.94 0.05 0.04 -0.22
4.24E-02 | -0.52 0.56 0.01 -0.01 -0.04 -0.62 0.18 -0.01
3.11E-02 | -0.77 -0.61 -0.01 -0.01 -0.05 0.05 -0.15 -0.01
3.45E-02 | -0.36 0.50 0.01 0.01 0.03 0.78 0.07 0.01
8.67E-03 | 0.00 0.24 -0.01 -0.01 -0.03 -0.06 -0.97 -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 77.3341 +/- 0.185746 1
2 2 1 gaussian Sigma keV 9.67036 +/- 0.184992 1
3 3 1 gaussian norm 0.219664 +/- 0.383006E-02 1
4 4 2 powerlaw PhoIndex 1.02029 +/- 0.918147E-02 1
5 5 2 powerlaw norm 1.01700 +/- 0.373338E-01 1
6 6 3 gaussian LineE keV 77.0849 +/- 0.193105 2
7 7 3 gaussian Sigma keV 9.96478 +/- 0.101988 2
8 3 3 gaussian norm 0.219664 = par 3 2
9 8 4 powerlaw PhoIndex 1.02153 +/- 0.880587E-02 2
10 5 4 powerlaw norm 1.01700 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 877.9481 using 168 PHA bins.
Reduced chi-squared = 5.487176 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 ( 5.257) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 5.257) > 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 1.272 photons ( 1.5177E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.266 photons ( 1.5101E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
131.9099
=====best line=====
77.3331 0.185661
=====best sigma=====
9.67273 0.184894
=====norm=====
0.219700 0.382797E-02
=====phoindx=====
1.02030 0.918111E-02
=====pow_norm=====
1.01702 0.373330E-01
=====best line=====
77.0847 0.193144
=====best sigma=====
9.96512 0.105121
=====norm=====
0.219700 par
=====phoindx=====
1.02154 0.880536E-02
=====pow_norm=====
1.01702 par
=====redu_chi=====
5.487170
=====area_flux=====
1.272
=====area_flux_f=====
1.266
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 10 1 640 2000 1237.3296 0 0.219700 0.382797E-02 9.67273 0.184894 1.02030 0.918111E-02 1.01702 0.373330E-01 1.272 640 2000 1233.3552 0 0.219700 0.382797E-02 9.96512 0.105121 1.02154 0.880536E-02 1.01702 0.373330E-01 1.266 5.487170 1
=====redu_chi=====
561.5344
=====best line=====
118.555 0.155480
=====best sigma=====
19.3655 1.38932
=====norm=====
1.32730 0.598103E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.807 0.156354
=====best sigma=====
18.5293 0.236162
=====norm=====
1.32730 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
93.23120
=====area_flux=====
1.103
=====area_flux_f=====
1.046
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 10 1 1600 3200 1896.88 0 1.32730 0.598103E-02 309.848 22.22912 9.50000 -1.00000 0.00000 -1.00000 1.103 1600 3200 1836.912 0 1.32730 0.598103E-02 296.4688 3.778592 9.50000 -1.00000 0.00000 -1.00000 1.046 93.23120 1
=====redu_chi=====
201.2207
=====best line=====
77.3341 0.185746
=====best sigma=====
9.67036 0.184992
=====norm=====
0.219664 0.383006E-02
=====phoindx=====
1.02029 0.918147E-02
=====pow_norm=====
1.01700 0.373338E-01
=====best line=====
77.0849 0.193105
=====best sigma=====
9.96478 0.101988
=====norm=====
0.219664 par
=====phoindx=====
1.02153 0.880587E-02
=====pow_norm=====
1.01700 par
=====redu_chi=====
5.487176
=====area_flux=====
1.272
=====area_flux_f=====
1.266
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 10 1 640 2000 1237.3456 0 0.219664 0.383006E-02 9.67036 0.184992 1.02029 0.918147E-02 1.01700 0.373338E-01 1.272 640 2000 1233.3584 0 0.219664 0.383006E-02 9.96478 0.101988 1.02153 0.880587E-02 1.01700 0.373338E-01 1.266 5.487176 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:36 12-Jun-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 3.654 +/- 7.1657E-03
Net count rate (cts/s) for file 2 3.654 +/- 7.1657E-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 = 284272.7 using 168 PHA bins.
Reduced chi-squared = 1776.704 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 24041.70 using 168 PHA bins.
Reduced chi-squared = 150.2606 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6026.55 -3 83.19 17.55 0.3263 0.9873
0.7689 83.10 17.31 0.9763
2650.50 -2 70.51 19.20 0.4784 0.9583
0.6839 72.75 19.30 0.9578
2551.53 0 70.92 19.30 0.4656 0.9565
0.6869 73.42 19.35 0.9554
2494.72 0 71.19 19.28 0.4541 0.9548
0.6892 73.82 19.36 0.9535
2454.55 0 71.35 19.14 0.4436 0.9533
0.6912 74.07 19.30 0.9519
2419.05 0 71.46 18.90 0.4338 0.9518
0.6930 74.22 19.13 0.9503
2382.27 0 71.52 18.58 0.4241 0.9504
0.6946 74.33 18.85 0.9489
2341.99 0 71.56 18.23 0.4142 0.9490
0.6963 74.40 18.52 0.9474
2296.97 0 71.58 17.83 0.4042 0.9475
0.6980 74.45 18.16 0.9459
2246.18 0 71.58 17.40 0.3938 0.9461
0.6997 74.49 17.77 0.9444
2188.50 0 71.58 16.93 0.3831 0.9446
0.7016 74.53 17.34 0.9429
1913.88 -1 72.18 9.904 0.2932 0.9313
0.7164 75.25 9.680 0.9292
784.919 -2 70.91 9.342 0.2106 0.8836
0.6330 74.49 9.773 0.8831
669.414 -2 70.32 8.595 0.2031 0.8569
0.5679 74.05 9.472 0.8563
616.433 -2 70.09 8.611 0.2041 0.8367
0.5214 73.87 9.498 0.8359
585.483 -2 70.01 8.589 0.2041 0.8212
0.4883 73.77 9.495 0.8202
567.847 -3 69.77 8.686 0.2065 0.7797
0.4042 73.49 9.598 0.7798
538.607 -4 69.71 8.675 0.2069 0.7664
0.3857 73.39 9.602 0.7652
538.470 -5 69.70 8.669 0.2068 0.7666
0.3856 73.39 9.599 0.7649
538.470 -3 69.70 8.670 0.2068 0.7666
0.3855 73.39 9.599 0.7649
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.03E-07 | 0.00 0.00 -0.17 0.53 -0.65 0.00 0.00 0.52
7.30E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.69E-06 | 0.00 0.01 -0.98 -0.09 0.11 0.00 0.01 -0.10
2.71E-04 | 0.02 -0.01 0.01 -0.47 -0.75 0.02 -0.01 -0.45
2.39E-02 | -0.18 -0.82 0.00 0.00 0.00 0.03 0.54 0.00
3.19E-02 | 0.95 -0.03 0.00 0.01 0.01 -0.13 0.29 0.01
5.74E-02 | 0.26 -0.48 -0.01 0.01 0.02 0.49 -0.68 0.01
3.91E-02 | 0.00 -0.30 -0.01 -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 69.7015 +/- 0.182438 1
2 2 1 gaussian Sigma keV 8.66950 +/- 0.182045 1
3 3 1 gaussian norm 0.206842 +/- 0.391263E-02 1
4 4 2 powerlaw PhoIndex 0.766580 +/- 0.848670E-02 1
5 5 2 powerlaw norm 0.385541 +/- 0.136451E-01 1
6 6 3 gaussian LineE keV 73.3904 +/- 0.208294 2
7 7 3 gaussian Sigma keV 9.59945 +/- 0.205912 2
8 3 3 gaussian norm 0.206842 = par 3 2
9 8 4 powerlaw PhoIndex 0.764889 +/- 0.813797E-02 2
10 5 4 powerlaw norm 0.385541 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 538.4698 using 168 PHA bins.
Reduced chi-squared = 3.365436 for 160 degrees of freedom
Null hypothesis probability = 1.784E-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 ( 3.224) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.224) > 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 1.383 photons ( 1.6607E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.392 photons ( 1.6836E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:36 12-Jun-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 8.963 +/- 1.1222E-02
Net count rate (cts/s) for file 2 8.963 +/- 1.1222E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.308 +/- 1.3315E-02( 59.2% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.308 +/- 1.3315E-02( 59.2% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.6789352E+07 using 198 PHA bins.
Reduced chi-squared = 88365.01 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 97700.55 using 198 PHA bins.
Reduced chi-squared = 514.2134 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
76065.8 -3 76.96 19.14 0.5855 2.604
8.0538E-02 94.85 19.25 2.558
75828.3 2 77.08 19.25 0.5876 2.472
0.1103 94.91 19.26 2.519
73940.0 1 78.25 19.31 0.6081 2.023
0.3111 95.51 19.32 2.315
57672.9 0 87.06 19.35 0.7748 1.938
0.4482 100.1 19.35 2.309
37190.2 0 106.5 19.36 1.299 1.968
0.2852 107.3 7.682 4.311
37189.7 4 106.5 19.36 1.299 1.968
0.2852 107.3 7.682 3.387
37185.6 3 106.5 19.36 1.299 1.968
0.2851 107.3 7.683 3.366
37144.8 2 106.5 19.36 1.298 1.969
0.2843 107.3 7.687 3.220
36743.3 1 106.5 19.36 1.296 1.975
0.2757 107.3 7.728 2.449
33483.8 0 107.1 19.32 1.276 2.036
0.1979 107.4 8.093 2.263
23635.0 0 110.5 15.71 1.226 2.712
8.2987E-02 107.4 10.26 1.330
12503.1 -1 110.7 18.01 1.479 8.427
5.0269E-02 106.6 14.96 1.415
11821.4 -2 109.2 18.93 1.620 9.158
1.4139E-02 107.8 17.34 1.434
10505.8 -1 110.4 18.76 1.511 9.469
1.5714E-04 109.0 15.65 2.020
10453.6 -1 111.2 18.41 1.476 9.489
6.1314E-05 110.1 16.23 8.529
10307.4 0 111.2 18.30 1.468 9.496
2.1112E-05 110.1 16.12 9.313
10282.2 0 111.3 18.27 1.463 9.498
1.9205E-06 110.2 16.07 9.448
10267.9 0 111.4 18.25 1.458 9.500
7.3936E-07 110.4 16.03 9.497
10252.8 0 111.5 18.23 1.454 9.500
7.6398E-09 110.5 15.99 9.500
10237.0 0 111.6 18.21 1.450 9.500
1.8804E-09 110.5 15.96 9.500
10223.6 0 111.7 18.18 1.446 9.500
4.4541E-10 110.6 15.92 9.500
10098.8 0 111.8 18.06 1.435 9.500
1.3911E-11 110.8 15.76 9.500
10084.3 0 111.9 18.02 1.431 9.500
6.1302E-12 110.8 15.73 9.500
10074.6 0 111.9 17.99 1.428 9.500
2.2560E-12 110.9 15.70 9.500
10066.8 0 112.0 17.97 1.425 9.500
3.2537E-13 111.0 15.68 9.500
10060.6 0 112.0 17.95 1.423 9.500
8.4652E-14 111.0 15.66 9.500
Fit parameter 5 has pegged
9953.76 -1 112.5 17.49 1.392 9.500
0.000 111.3 15.13 9.500
Fit parameter 5 has pegged
9934.36 -2 112.6 17.62 1.388 9.500
0.000 111.5 15.27 9.500
Fit parameter 5 has pegged
9930.29 -3 112.8 17.47 1.378 9.500
0.000 111.7 15.11 9.500
Fit parameter 5 has pegged
9929.07 -4 112.7 17.55 1.381 9.500
0.000 111.6 15.18 9.500
Fit parameter 5 has pegged
9928.55 -5 112.8 17.50 1.378 9.500
0.000 111.7 15.13 9.500
Fit parameter 5 has pegged
9928.49 -6 112.8 17.53 1.380 9.500
0.000 111.6 15.16 9.500
Fit parameter 5 has pegged
9928.34 -7 112.8 17.51 1.379 9.500
0.000 111.7 15.14 9.500
Fit parameter 5 has pegged
9928.30 -8 112.8 17.52 1.379 9.500
0.000 111.7 15.15 9.500
Maximum number of increasing lambda iterations exceeded
without decreasing the fit statistic, probable minimum
found to available numerical accuracy
9928.30 3 112.8 17.52 1.379 9.500
0.000 111.7 15.15 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.13E-05 | -0.01 0.01 -1.00 -0.02 0.05
2.00E-04 | 0.01 -0.01 0.05 0.11 0.99
2.98E-03 | -0.41 -0.91 0.00 -0.01 0.00
3.44E-02 | 0.81 -0.37 -0.03 0.45 -0.06
1.40E-02 | 0.42 -0.18 0.01 -0.89 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 112.760 +/- 0.159760 1
2 2 1 gaussian Sigma keV 17.5223 +/- 0.873368E-01 1
3 3 1 gaussian norm 1.37947 +/- 0.674693E-02 1
4 4 2 powerlaw PhoIndex 9.50022 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 111.653 +/- 0.134051 2
7 7 3 gaussian Sigma keV 15.1532 +/- 0.209883E-01 2
8 3 3 gaussian norm 1.37947 = par 3 2
9 8 4 powerlaw PhoIndex 9.50003 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 9928.297 using 198 PHA bins.
Reduced chi-squared = 52.25419 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 ( 50.397) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 50.397) > 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 1.058 photons ( 2.0293E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.075 photons ( 2.0217E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:37 12-Jun-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 3.654 +/- 7.1657E-03
Net count rate (cts/s) for file 2 3.654 +/- 7.1657E-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 = 371352.3 using 168 PHA bins.
Reduced chi-squared = 2320.952 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 39571.52 using 168 PHA bins.
Reduced chi-squared = 247.3220 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6212.42 -3 86.81 14.96 0.1559 0.8673
0.6320 86.06 14.44 0.8549
3993.20 -4 63.03 19.17 0.3710 0.9026
0.6104 65.38 18.74 0.8990
2529.66 0 68.04 18.87 0.3562 0.9022
0.6065 70.34 19.04 0.8996
2439.84 0 68.39 18.60 0.3564 0.9022
0.6062 70.74 18.84 0.8997
2362.40 0 68.69 18.35 0.3564 0.9021
0.6059 71.11 18.64 0.8997
1814.20 0 70.31 13.04 0.3503 0.9016
0.6044 72.99 13.26 0.8995
917.080 -1 71.04 10.48 0.2419 0.8871
0.6242 74.22 11.22 0.8849
779.892 -2 70.66 9.741 0.1934 0.8569
0.5734 74.33 9.854 0.8560
624.137 -2 70.27 8.300 0.2005 0.8380
0.5258 73.90 9.335 0.8372
587.954 -2 69.97 8.670 0.2050 0.8224
0.4904 73.76 9.543 0.8214
569.752 -3 69.79 8.663 0.2061 0.7801
0.4048 73.50 9.582 0.7802
538.622 -4 69.70 8.682 0.2070 0.7664
0.3855 73.39 9.607 0.7651
538.470 -5 69.70 8.667 0.2068 0.7666
0.3856 73.39 9.597 0.7649
538.470 -6 69.70 8.670 0.2069 0.7666
0.3855 73.39 9.600 0.7649
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.03E-07 | 0.00 0.00 -0.17 0.53 -0.65 0.00 0.00 0.52
7.30E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.68E-06 | 0.00 0.01 -0.98 -0.09 0.11 0.00 0.01 -0.10
2.71E-04 | 0.02 -0.01 0.01 -0.47 -0.75 0.02 -0.01 -0.45
2.39E-02 | -0.19 -0.82 0.00 0.00 0.00 0.03 0.54 0.00
3.19E-02 | 0.95 -0.03 0.00 0.01 0.01 -0.13 0.29 0.01
5.74E-02 | -0.26 0.48 0.01 -0.01 -0.02 -0.49 0.68 -0.01
3.91E-02 | 0.00 0.30 0.01 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 69.7012 +/- 0.182404 1
2 2 1 gaussian Sigma keV 8.67017 +/- 0.182007 1
3 3 1 gaussian norm 0.206854 +/- 0.391171E-02 1
4 4 2 powerlaw PhoIndex 0.766566 +/- 0.848599E-02 1
5 5 2 powerlaw norm 0.385518 +/- 0.136454E-01 1
6 6 3 gaussian LineE keV 73.3902 +/- 0.208273 2
7 7 3 gaussian Sigma keV 9.60009 +/- 0.205885 2
8 3 3 gaussian norm 0.206854 = par 3 2
9 8 4 powerlaw PhoIndex 0.764878 +/- 0.813729E-02 2
10 5 4 powerlaw norm 0.385518 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 538.4697 using 168 PHA bins.
Reduced chi-squared = 3.365435 for 160 degrees of freedom
Null hypothesis probability = 1.784E-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 ( 3.224) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.224) > 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 1.383 photons ( 1.6607E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.392 photons ( 1.6836E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
150.2606
=====best line=====
69.7015 0.182438
=====best sigma=====
8.66950 0.182045
=====norm=====
0.206842 0.391263E-02
=====phoindx=====
0.766580 0.848670E-02
=====pow_norm=====
0.385541 0.136451E-01
=====best line=====
73.3904 0.208294
=====best sigma=====
9.59945 0.205912
=====norm=====
0.206842 par
=====phoindx=====
0.764889 0.813797E-02
=====pow_norm=====
0.385541 par
=====redu_chi=====
3.365436
=====area_flux=====
1.383
=====area_flux_f=====
1.392
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 11 1 640 2000 1115.224 0 0.206842 0.391263E-02 8.66950 0.182045 0.766580 0.848670E-02 0.385541 0.136451E-01 1.383 640 2000 1174.2464 0 0.206842 0.391263E-02 9.59945 0.205912 0.764889 0.813797E-02 0.385541 0.136451E-01 1.392 3.365436 1
=====redu_chi=====
514.2134
=====best line=====
112.760 0.159760
=====best sigma=====
17.5223 0.873368E-01
=====norm=====
1.37947 0.674693E-02
=====phoindx=====
9.50022 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.653 0.134051
=====best sigma=====
15.1532 0.209883E-01
=====norm=====
1.37947 par
=====phoindx=====
9.50003 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
52.25419
=====area_flux=====
1.058
=====area_flux_f=====
1.075
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 11 1 1600 3200 1804.16 0 1.37947 0.674693E-02 280.3568 1.3973888 9.50022 -1.00000 0.00000 -1.00000 1.058 1600 3200 1786.448 0 1.37947 0.674693E-02 242.4512 0.3358128 9.50003 -1.00000 0.00000 -1.00000 1.075 52.25419 1
=====redu_chi=====
247.3220
=====best line=====
69.7012 0.182404
=====best sigma=====
8.67017 0.182007
=====norm=====
0.206854 0.391171E-02
=====phoindx=====
0.766566 0.848599E-02
=====pow_norm=====
0.385518 0.136454E-01
=====best line=====
73.3902 0.208273
=====best sigma=====
9.60009 0.205885
=====norm=====
0.206854 par
=====phoindx=====
0.764878 0.813729E-02
=====pow_norm=====
0.385518 par
=====redu_chi=====
3.365435
=====area_flux=====
1.383
=====area_flux_f=====
1.392
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 11 1 640 2000 1115.2192 0 0.206854 0.391171E-02 8.67017 0.182007 0.766566 0.848599E-02 0.385518 0.136454E-01 1.383 640 2000 1174.2432 0 0.206854 0.391171E-02 9.60009 0.205885 0.764878 0.813729E-02 0.385518 0.136454E-01 1.392 3.365435 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:37 12-Jun-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 3.428 +/- 6.9403E-03
Net count rate (cts/s) for file 2 3.428 +/- 6.9403E-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 = 270296.8 using 168 PHA bins.
Reduced chi-squared = 1689.355 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12923.30 using 168 PHA bins.
Reduced chi-squared = 80.77061 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2344.91 -3 84.63 15.19 0.2282 0.8399
0.5107 84.99 14.60 0.8396
1234.11 -3 78.82 8.901 0.1324 0.7718
0.3844 80.30 9.083 0.7747
918.708 -1 79.31 9.726 0.1781 0.7747
0.3858 81.18 12.22 0.7762
750.328 -2 79.47 9.536 0.1821 0.7888
0.4068 81.07 9.799 0.7892
744.969 0 79.45 9.605 0.1841 0.7887
0.4071 81.12 9.971 0.7895
742.913 0 79.44 9.651 0.1855 0.7888
0.4072 81.14 10.06 0.7899
738.652 -1 79.42 9.811 0.1898 0.7906
0.4089 81.14 10.33 0.7918
723.303 -2 79.50 9.860 0.1921 0.8026
0.4283 81.20 10.30 0.8034
717.119 -3 79.69 9.979 0.1962 0.8365
0.4877 81.40 10.43 0.8363
695.816 -4 79.79 9.986 0.1974 0.8493
0.5196 81.48 10.44 0.8498
693.909 -5 79.80 9.995 0.1977 0.8494
0.5223 81.49 10.45 0.8506
693.895 -6 79.80 9.997 0.1976 0.8493
0.5221 81.49 10.44 0.8505
693.894 -7 79.80 9.998 0.1976 0.8493
0.5221 81.49 10.44 0.8505
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.28E-07 | 0.00 0.00 -0.21 0.60 -0.53 0.00 0.00 0.56
7.84E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.65E-06 | 0.00 0.03 -0.97 -0.11 0.14 0.00 0.05 -0.12
4.47E-04 | 0.02 0.04 -0.02 -0.39 -0.83 0.02 0.14 -0.37
1.10E-03 | 0.00 -0.29 0.04 0.05 0.09 0.01 0.95 0.05
4.37E-03 | 0.02 0.95 0.04 0.04 0.06 0.01 0.28 0.04
5.33E-02 | -0.43 0.02 0.00 -0.01 -0.03 -0.90 0.01 -0.01
4.50E-02 | -0.90 0.01 0.00 0.00 -0.01 0.43 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 79.7998 +/- 0.215601 1
2 2 1 gaussian Sigma keV 9.99843 +/- 0.640408E-01 1
3 3 1 gaussian norm 0.197577 +/- 0.414451E-02 1
4 4 2 powerlaw PhoIndex 0.849287 +/- 0.928649E-02 1
5 5 2 powerlaw norm 0.522111 +/- 0.192359E-01 1
6 6 3 gaussian LineE keV 81.4881 +/- 0.227506 2
7 7 3 gaussian Sigma keV 10.4401 +/- 0.368204E-01 2
8 3 3 gaussian norm 0.197577 = par 3 2
9 8 4 powerlaw PhoIndex 0.850518 +/- 0.891424E-02 2
10 5 4 powerlaw norm 0.522111 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 693.8936 using 168 PHA bins.
Reduced chi-squared = 4.336835 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 ( 4.155) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.155) > 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 1.316 photons ( 1.6010E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.310 photons ( 1.5991E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:37 12-Jun-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 8.130 +/- 1.0688E-02
Net count rate (cts/s) for file 2 8.130 +/- 1.0688E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.702 +/- 1.2744E-02( 57.8% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.702 +/- 1.2744E-02( 57.8% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 5597230. using 198 PHA bins.
Reduced chi-squared = 29459.10 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 122645.1 using 198 PHA bins.
Reduced chi-squared = 645.5003 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
71693.5 -3 111.2 18.54 0.5942 2.870
0.2969 108.3 18.32 2.838
59700.4 -4 100.9 19.19 2.270 8.377
4294. 100.6 19.30 8.316
59120.2 1 100.9 19.28 2.264 9.189
1340. 100.6 19.35 9.293
57719.3 0 101.1 19.33 2.221 9.476
569.6 100.8 19.36 9.457
52766.0 0 102.8 19.37 2.073 9.490
266.6 102.4 19.37 9.484
47987.3 0 105.0 19.37 1.963 9.497
70.21 104.5 19.37 9.493
43013.3 0 107.5 19.37 1.877 3.414
2.588 106.9 19.37 9.497
43000.2 2 107.5 19.37 1.876 3.169
4.684 106.9 19.37 9.499
42858.2 1 107.5 19.37 1.874 2.761
14.25 107.0 19.37 9.500
41728.7 0 108.0 19.37 1.852 2.622
23.86 107.5 19.37 9.500
37005.7 0 110.4 19.37 1.789 2.498
39.56 110.1 19.37 9.500
32981.8 0 112.6 19.37 1.740 2.514
36.97 112.6 19.37 9.500
29864.6 0 114.5 19.37 1.702 2.530
34.68 114.7 19.37 9.500
27586.4 0 116.1 19.37 1.671 2.552
31.59 116.4 19.37 9.500
25986.5 0 117.4 19.37 1.645 2.584
27.73 117.7 19.37 9.500
24885.3 0 118.5 19.37 1.624 2.612
25.40 118.7 19.37 9.500
24142.8 0 119.3 19.37 1.606 2.652
22.08 119.5 19.37 9.500
23635.8 0 120.0 19.37 1.592 2.722
17.42 120.1 19.37 9.500
23293.5 0 120.6 19.37 1.580 2.850
10.45 120.5 19.37 9.500
23049.4 0 121.1 19.37 1.571 3.191
3.490 120.9 19.37 9.500
22872.7 0 121.4 19.37 1.563 6.767
1.606 121.1 19.37 9.500
22631.2 0 122.0 19.37 1.549 9.379
8.5850E-02 121.2 19.37 9.500
22570.3 0 122.2 19.37 1.547 9.487
3.5632E-02 121.3 19.37 9.500
22533.5 0 122.3 19.37 1.546 9.495
2.2985E-03 121.5 19.37 9.500
22497.0 0 122.5 19.37 1.544 9.499
5.6886E-04 121.5 19.37 9.500
22471.1 0 122.5 19.37 1.543 9.499
6.7228E-05 121.6 19.37 9.500
22451.2 0 122.6 19.37 1.542 9.500
9.0596E-07 121.7 19.37 9.500
22438.9 0 122.7 19.37 1.541 9.500
3.8142E-07 121.7 19.37 9.500
22422.5 0 122.7 19.37 1.540 9.500
1.1942E-07 121.7 19.37 9.500
22405.4 0 122.8 19.37 1.539 9.500
5.3448E-08 121.7 19.37 9.500
22391.5 0 122.8 19.37 1.537 9.500
3.1038E-09 121.8 19.37 9.500
22337.6 0 122.9 19.37 1.531 9.500
9.5919E-10 121.8 19.37 9.500
22290.4 0 122.9 19.37 1.526 9.500
4.2414E-10 121.8 19.37 9.500
22249.1 0 123.0 19.37 1.521 9.500
1.5621E-10 121.8 19.37 9.500
22212.8 0 123.0 19.37 1.516 9.500
2.2427E-11 121.8 19.37 9.500
22180.6 0 123.1 19.37 1.511 9.500
5.7509E-12 121.8 19.37 9.500
22152.2 0 123.2 19.37 1.507 9.500
1.5776E-12 121.8 19.37 9.500
22127.0 0 123.2 19.37 1.504 9.500
5.3392E-13 121.8 19.37 9.500
22104.3 0 123.3 19.37 1.500 9.500
1.1300E-14 121.9 19.37 9.500
Fit parameter 5 has pegged
22066.3 0 123.4 19.37 1.494 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
22050.2 0 123.4 19.37 1.492 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
22035.7 0 123.5 19.37 1.489 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
22022.7 0 123.5 19.37 1.487 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
22010.7 0 123.6 19.37 1.484 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
22000.0 0 123.6 19.37 1.482 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
21990.3 0 123.7 19.37 1.481 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
21981.4 0 123.7 19.37 1.479 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
21973.4 0 123.8 19.37 1.477 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
21966.0 0 123.8 19.37 1.476 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21959.2 0 123.8 19.37 1.474 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21953.0 0 123.9 19.37 1.473 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21947.4 0 123.9 19.37 1.472 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21942.2 0 124.0 19.37 1.471 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21937.4 0 124.0 19.37 1.470 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21933.0 0 124.0 19.37 1.469 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21928.9 0 124.1 19.37 1.468 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21925.1 0 124.1 19.37 1.467 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21921.7 0 124.1 19.37 1.466 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21918.4 0 124.1 19.37 1.465 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21915.4 0 124.2 19.37 1.465 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21912.8 0 124.2 19.37 1.464 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
21910.2 0 124.2 19.37 1.463 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21907.7 0 124.2 19.37 1.463 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21905.7 0 124.3 19.37 1.462 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21903.6 0 124.3 19.37 1.462 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21901.7 0 124.3 19.37 1.461 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21899.9 0 124.3 19.37 1.461 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21898.3 0 124.3 19.37 1.460 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21896.8 0 124.4 19.37 1.460 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21895.2 0 124.4 19.37 1.460 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21893.9 0 124.4 19.37 1.459 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21892.6 0 124.4 19.37 1.459 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21891.5 0 124.4 19.37 1.459 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21890.4 0 124.4 19.37 1.458 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21889.4 0 124.5 19.37 1.458 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21888.4 0 124.5 19.37 1.458 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21887.6 0 124.5 19.37 1.457 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21886.7 0 124.5 19.37 1.457 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21885.9 0 124.5 19.37 1.457 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21885.3 0 124.5 19.37 1.457 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21884.5 0 124.5 19.37 1.457 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21883.8 0 124.5 19.37 1.456 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21883.3 0 124.5 19.37 1.456 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21882.6 0 124.6 19.37 1.456 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21882.1 0 124.6 19.37 1.456 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21881.6 0 124.6 19.37 1.456 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21881.1 0 124.6 19.37 1.455 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21880.7 0 124.6 19.37 1.455 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21880.2 0 124.6 19.37 1.455 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
21879.9 0 124.6 19.37 1.455 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21879.6 0 124.6 19.37 1.455 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21879.2 0 124.6 19.37 1.455 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21878.8 0 124.6 19.37 1.455 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21878.5 0 124.6 19.37 1.455 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21878.2 0 124.6 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21877.9 0 124.6 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21877.5 0 124.6 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21877.4 0 124.6 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21877.1 0 124.7 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21877.0 0 124.7 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21876.8 0 124.7 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21876.6 0 124.7 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21876.3 0 124.7 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21876.2 0 124.7 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21876.0 0 124.7 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21875.8 0 124.7 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21875.7 0 124.7 19.37 1.454 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21875.5 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21875.4 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21875.3 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21875.2 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21875.1 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.9 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.8 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.7 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.6 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.4 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.4 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.3 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.2 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.1 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.0 1 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21874.0 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.9 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.8 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.8 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.6 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.6 1 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.5 1 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.4 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.4 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.4 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.4 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.3 1 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.2 0 124.7 19.37 1.453 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.2 1 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.1 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.1 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.0 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21873.0 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
21872.9 1 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.8 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.8 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.8 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
21872.7 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.7 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.7 0 124.7 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.6 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.6 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.6 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.5 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.4 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.4 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.4 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
21872.4 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.4 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
21872.2 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.2 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.2 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
21872.1 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.1 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.0 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21872.0 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.9 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.9 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.8 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.8 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.7 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.7 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.7 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.6 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.6 0 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.5 1 124.8 19.37 1.452 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.4 1 124.8 19.37 1.451 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.4 1 124.8 19.37 1.451 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.3 1 124.8 19.37 1.451 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.2 1 124.8 19.37 1.451 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.1 1 124.8 19.37 1.451 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21871.0 1 124.8 19.37 1.451 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21870.9 1 124.8 19.37 1.451 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21870.8 1 124.8 19.37 1.451 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
21870.8 4 124.8 19.37 1.451 9.500
0.000 122.2 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.97E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.43E-02 | 0.99 0.03 -0.01 0.17 0.02
1.17E-02 | 0.17 0.00 0.01 -0.98 -0.06
2.70E+00 | -0.03 0.96 0.00 -0.02 0.28
1.37E+00 | 0.00 -0.28 0.00 -0.06 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 124.781 +/- 0.128958 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.61030 1
3 3 1 gaussian norm 1.45097 +/- 0.555347E-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 122.203 +/- 0.135197 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.21063 2
8 3 3 gaussian norm 1.45097 = 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 = 21870.81 using 198 PHA bins.
Reduced chi-squared = 115.1095 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 (111.019) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square (111.019) > 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 1.305 photons ( 2.6885E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.268 photons ( 2.5763E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:40 12-Jun-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 3.428 +/- 6.9403E-03
Net count rate (cts/s) for file 2 3.428 +/- 6.9403E-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 = 324112.9 using 168 PHA bins.
Reduced chi-squared = 2025.705 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 22745.66 using 168 PHA bins.
Reduced chi-squared = 142.1604 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2408.45 -3 86.54 12.93 0.1923 0.8682
0.5852 86.89 12.05 0.8656
1051.94 -4 78.14 12.52 0.1927 0.8198
0.4522 80.21 11.47 0.8226
837.075 -5 81.34 9.616 0.1742 0.8583
0.5406 82.03 9.867 0.8577
733.026 0 80.59 9.757 0.1819 0.8570
0.5427 81.83 9.955 0.8571
710.988 0 80.22 9.792 0.1863 0.8566
0.5427 81.72 10.21 0.8573
703.171 -1 79.84 10.45 0.1964 0.8570
0.5402 81.56 10.46 0.8582
694.751 -2 79.94 9.988 0.1973 0.8556
0.5366 81.54 10.43 0.8569
693.963 -3 79.81 10.06 0.1983 0.8513
0.5266 81.50 10.47 0.8527
693.919 -4 79.81 9.992 0.1973 0.8493
0.5223 81.49 10.43 0.8506
693.898 -5 79.80 9.998 0.1977 0.8494
0.5222 81.49 10.45 0.8506
693.892 -6 79.80 9.998 0.1975 0.8493
0.5221 81.49 10.44 0.8505
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.28E-07 | 0.00 0.00 -0.21 0.60 -0.53 0.00 0.00 0.56
7.84E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.66E-06 | 0.00 0.03 -0.97 -0.11 0.14 0.00 0.05 -0.12
4.47E-04 | 0.02 0.04 -0.02 -0.39 -0.83 0.02 0.14 -0.37
1.10E-03 | 0.00 -0.30 0.04 0.05 0.09 0.01 0.95 0.05
4.29E-03 | 0.02 0.95 0.04 0.04 0.06 0.01 0.29 0.04
5.34E-02 | -0.43 0.02 0.00 -0.01 -0.03 -0.90 0.01 -0.01
4.49E-02 | -0.90 0.01 0.00 0.00 -0.01 0.43 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 79.8001 +/- 0.215476 1
2 2 1 gaussian Sigma keV 9.99834 +/- 0.633497E-01 1
3 3 1 gaussian norm 0.197536 +/- 0.414750E-02 1
4 4 2 powerlaw PhoIndex 0.849258 +/- 0.928916E-02 1
5 5 2 powerlaw norm 0.522073 +/- 0.192454E-01 1
6 6 3 gaussian LineE keV 81.4886 +/- 0.227624 2
7 7 3 gaussian Sigma keV 10.4370 +/- 0.368496E-01 2
8 3 3 gaussian norm 0.197536 = par 3 2
9 8 4 powerlaw PhoIndex 0.850492 +/- 0.891686E-02 2
10 5 4 powerlaw norm 0.522073 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 693.8923 using 168 PHA bins.
Reduced chi-squared = 4.336827 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 ( 4.155) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.155) > 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 1.316 photons ( 1.6010E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.310 photons ( 1.5991E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
80.77061
=====best line=====
79.7998 0.215601
=====best sigma=====
9.99843 0.640408E-01
=====norm=====
0.197577 0.414451E-02
=====phoindx=====
0.849287 0.928649E-02
=====pow_norm=====
0.522111 0.192359E-01
=====best line=====
81.4881 0.227506
=====best sigma=====
10.4401 0.368204E-01
=====norm=====
0.197577 par
=====phoindx=====
0.850518 0.891424E-02
=====pow_norm=====
0.522111 par
=====redu_chi=====
4.336835
=====area_flux=====
1.316
=====area_flux_f=====
1.310
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 12 1 640 2000 1276.7968 0 0.197577 0.414451E-02 9.99843 0.640408E-01 0.849287 0.928649E-02 0.522111 0.192359E-01 1.316 640 2000 1303.8096 0 0.197577 0.414451E-02 10.4401 0.368204E-01 0.850518 0.891424E-02 0.522111 0.192359E-01 1.310 4.336835 1
=====redu_chi=====
645.5003
=====best line=====
124.781 0.128958
=====best sigma=====
19.3655 1.61030
=====norm=====
1.45097 0.555347E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
122.203 0.135197
=====best sigma=====
19.3655 1.21063
=====norm=====
1.45097 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
115.1095
=====area_flux=====
1.305
=====area_flux_f=====
1.268
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 12 1 1600 3200 1996.496 0 1.45097 0.555347E-02 309.848 25.7648 9.50000 -1.00000 0.00000 -1.00000 1.305 1600 3200 1955.248 0 1.45097 0.555347E-02 309.848 19.37008 9.50000 -1.00000 0.00000 -1.00000 1.268 115.1095 1
=====redu_chi=====
142.1604
=====best line=====
79.8001 0.215476
=====best sigma=====
9.99834 0.633497E-01
=====norm=====
0.197536 0.414750E-02
=====phoindx=====
0.849258 0.928916E-02
=====pow_norm=====
0.522073 0.192454E-01
=====best line=====
81.4886 0.227624
=====best sigma=====
10.4370 0.368496E-01
=====norm=====
0.197536 par
=====phoindx=====
0.850492 0.891686E-02
=====pow_norm=====
0.522073 par
=====redu_chi=====
4.336827
=====area_flux=====
1.316
=====area_flux_f=====
1.310
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 12 1 640 2000 1276.8016 0 0.197536 0.414750E-02 9.99834 0.633497E-01 0.849258 0.928916E-02 0.522073 0.192454E-01 1.316 640 2000 1303.8176 0 0.197536 0.414750E-02 10.4370 0.368496E-01 0.850492 0.891686E-02 0.522073 0.192454E-01 1.310 4.336827 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:40 12-Jun-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 3.305 +/- 6.8149E-03
Net count rate (cts/s) for file 2 3.305 +/- 6.8149E-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 = 244656.6 using 168 PHA bins.
Reduced chi-squared = 1529.104 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7360.791 using 168 PHA bins.
Reduced chi-squared = 46.00494 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1448.27 -3 87.39 12.77 0.1951 0.7888
0.4258 88.32 12.22 0.7891
616.830 -4 84.37 9.806 0.1695 0.7692
0.3784 86.63 9.864 0.7704
598.425 0 84.51 9.663 0.1739 0.7696
0.3784 86.79 9.968 0.7703
598.137 -1 84.56 9.867 0.1826 0.7711
0.3781 86.88 10.89 0.7715
583.483 -2 84.61 9.924 0.1850 0.7769
0.3862 86.87 10.22 0.7769
580.164 -2 84.63 10.03 0.1875 0.7820
0.3939 86.91 10.49 0.7821
576.395 -3 84.73 10.09 0.1904 0.7984
0.4199 86.99 10.52 0.7981
573.956 -4 84.77 10.16 0.1924 0.8067
0.4355 87.03 10.59 0.8066
573.591 -5 84.79 10.13 0.1923 0.8069
0.4366 87.03 10.57 0.8071
573.575 -6 84.78 10.15 0.1924 0.8069
0.4368 87.03 10.58 0.8072
573.574 1 84.78 10.15 0.1924 0.8069
0.4368 87.03 10.58 0.8072
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.68E-07 | 0.00 0.00 -0.20 0.56 -0.60 0.00 0.00 0.54
7.78E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.25E-06 | 0.00 0.04 -0.98 -0.08 0.17 0.00 0.04 -0.09
3.86E-04 | 0.02 0.12 -0.04 -0.44 -0.76 0.02 0.19 -0.42
1.06E-03 | -0.01 -0.54 0.02 0.04 0.07 0.00 0.84 0.04
3.08E-03 | 0.00 -0.83 -0.06 -0.10 -0.15 0.01 -0.51 -0.09
4.72E-02 | -0.91 0.01 0.00 0.00 -0.01 0.41 0.00 0.00
5.49E-02 | -0.41 0.00 0.00 -0.01 -0.02 -0.91 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 84.7828 +/- 0.220106 1
2 2 1 gaussian Sigma keV 10.1473 +/- 0.494501E-01 1
3 3 1 gaussian norm 0.192439 +/- 0.454591E-02 1
4 4 2 powerlaw PhoIndex 0.806941 +/- 0.106769E-01 1
5 5 2 powerlaw norm 0.436771 +/- 0.181469E-01 1
6 6 3 gaussian LineE keV 87.0289 +/- 0.231434 2
7 7 3 gaussian Sigma keV 10.5794 +/- 0.395977E-01 2
8 3 3 gaussian norm 0.192439 = par 3 2
9 8 4 powerlaw PhoIndex 0.807208 +/- 0.102556E-01 2
10 5 4 powerlaw norm 0.436771 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 573.5741 using 168 PHA bins.
Reduced chi-squared = 3.584838 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 ( 3.435) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.435) > 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 1.314 photons ( 1.6188E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.312 photons ( 1.6241E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:40 12-Jun-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 7.550 +/- 1.0300E-02
Net count rate (cts/s) for file 2 7.550 +/- 1.0300E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.245 +/- 1.2350E-02( 56.2% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.245 +/- 1.2350E-02( 56.2% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 3692032. using 198 PHA bins.
Reduced chi-squared = 19431.75 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 105972.6 using 198 PHA bins.
Reduced chi-squared = 557.7507 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
55407.8 -3 115.4 19.02 0.5677 2.819
0.4254 119.7 18.85 2.810
55245.3 2 115.5 19.02 0.5685 2.270
1.058 119.7 18.85 2.643
54270.0 1 115.8 18.97 0.5762 2.170
1.660 119.9 18.81 2.387
46084.9 0 118.2 18.57 0.6447 1.894
4.161 121.6 18.45 2.107
25427.0 0 124.8 19.34 0.9723 1.889
4.270 126.2 19.17 2.156
21229.2 -1 123.1 19.36 1.513 1.971
0.7150 124.0 19.34 3.156
20617.9 0 123.3 19.36 1.480 1.991
0.7183 124.1 19.36 7.356
20252.4 0 123.6 19.36 1.458 1.997
0.8049 124.3 19.36 9.450
20039.6 0 123.8 19.37 1.445 2.010
0.8712 124.5 19.37 9.481
19896.5 0 124.0 19.37 1.436 2.034
0.9038 124.7 19.37 9.498
19804.0 0 124.1 19.37 1.431 2.046
1.013 124.8 19.37 9.499
19745.8 0 124.3 19.37 1.427 2.070
1.069 124.9 19.37 9.500
19697.6 0 124.4 19.37 1.424 2.091
1.163 125.0 19.37 9.500
19665.0 0 124.4 19.37 1.422 2.106
1.311 125.0 19.37 9.500
19642.5 0 124.5 19.37 1.421 2.143
1.325 125.1 19.37 9.500
19626.3 0 124.6 19.37 1.420 2.160
1.536 125.1 19.37 9.500
19612.0 0 124.6 19.37 1.420 2.171
1.808 125.1 19.37 9.500
19605.0 0 124.6 19.37 1.419 2.203
1.896 125.1 19.37 9.500
19597.4 0 124.7 19.37 1.418 2.234
2.053 125.1 19.37 9.500
19587.4 0 124.7 19.37 1.418 2.242
2.519 125.2 19.37 9.500
19583.9 0 124.7 19.37 1.418 2.267
2.782 125.2 19.37 9.500
19580.2 0 124.7 19.37 1.418 2.286
3.174 125.2 19.37 9.500
19578.7 0 124.7 19.37 1.418 2.304
3.631 125.2 19.37 9.500
19575.6 0 124.7 19.37 1.417 2.331
3.943 125.2 19.37 9.500
19572.2 0 124.7 19.37 1.417 2.353
4.461 125.2 19.37 9.500
19570.2 0 124.7 19.37 1.417 2.372
5.097 125.2 19.37 9.500
19569.4 0 124.7 19.37 1.417 2.391
5.831 125.2 19.37 9.500
19568.4 0 124.7 19.37 1.417 2.412
6.578 125.2 19.37 9.500
19527.8 0 124.8 19.37 1.411 2.455
8.346 125.0 19.37 9.500
19519.2 0 124.8 19.37 1.410 2.449
10.59 124.9 19.37 9.500
19454.3 0 124.8 19.37 1.404 2.427
11.86 124.9 19.37 9.500
19397.9 0 124.9 19.37 1.399 2.413
12.82 125.0 19.37 9.500
19348.4 0 125.0 19.37 1.394 2.402
13.59 125.0 19.37 9.500
19304.9 0 125.0 19.37 1.389 2.394
14.25 125.1 19.37 9.500
19266.3 0 125.1 19.37 1.385 2.387
14.80 125.1 19.37 9.500
19232.3 0 125.1 19.37 1.381 2.383
15.25 125.1 19.37 9.500
19202.0 0 125.2 19.37 1.377 2.379
15.65 125.2 19.37 9.500
19174.9 0 125.2 19.37 1.373 2.376
15.98 125.2 19.37 9.500
19150.9 0 125.3 19.37 1.370 2.373
16.30 125.3 19.37 9.500
19129.3 0 125.3 19.37 1.367 2.371
16.57 125.3 19.37 9.500
19110.0 0 125.4 19.37 1.364 2.369
16.84 125.3 19.37 9.500
19092.6 0 125.4 19.37 1.362 2.367
17.06 125.4 19.37 9.500
19076.9 0 125.5 19.37 1.359 2.366
17.26 125.4 19.37 9.500
19062.8 0 125.5 19.37 1.357 2.365
17.45 125.4 19.37 9.500
19050.1 0 125.6 19.37 1.355 2.365
17.62 125.4 19.37 9.500
19038.5 0 125.6 19.37 1.353 2.364
17.78 125.5 19.37 9.500
19028.1 0 125.6 19.37 1.351 2.364
17.91 125.5 19.37 9.500
19018.6 0 125.7 19.37 1.350 2.363
18.03 125.5 19.37 9.500
19010.0 0 125.7 19.37 1.348 2.363
18.15 125.5 19.37 9.500
19002.1 0 125.8 19.37 1.347 2.363
18.26 125.6 19.37 9.500
18995.0 0 125.8 19.37 1.345 2.364
18.35 125.6 19.37 9.500
18988.4 0 125.8 19.37 1.344 2.364
18.46 125.6 19.37 9.500
18982.5 0 125.9 19.37 1.343 2.364
18.54 125.6 19.37 9.500
18977.0 0 125.9 19.37 1.342 2.364
18.64 125.7 19.37 9.500
18972.0 0 125.9 19.37 1.341 2.364
18.75 125.7 19.37 9.500
18967.4 0 125.9 19.37 1.340 2.364
18.85 125.7 19.37 9.500
18963.2 0 126.0 19.37 1.339 2.365
18.92 125.7 19.37 9.500
18959.4 0 126.0 19.37 1.338 2.365
18.99 125.7 19.37 9.500
18955.8 0 126.0 19.37 1.337 2.366
19.07 125.7 19.37 9.500
18952.5 0 126.1 19.37 1.337 2.366
19.16 125.8 19.37 9.500
18949.5 0 126.1 19.37 1.336 2.367
19.24 125.8 19.37 9.500
18946.7 0 126.1 19.37 1.335 2.367
19.31 125.8 19.37 9.500
18944.1 0 126.1 19.37 1.335 2.367
19.40 125.8 19.37 9.500
18941.8 0 126.1 19.37 1.334 2.368
19.47 125.8 19.37 9.500
18939.6 0 126.2 19.37 1.333 2.369
19.52 125.8 19.37 9.500
18937.5 0 126.2 19.37 1.333 2.369
19.59 125.8 19.37 9.500
18935.6 0 126.2 19.37 1.332 2.370
19.66 125.8 19.37 9.500
18933.9 0 126.2 19.37 1.332 2.371
19.73 125.8 19.37 9.500
18932.3 0 126.2 19.37 1.332 2.371
19.78 125.9 19.37 9.500
18930.7 0 126.2 19.37 1.331 2.372
19.85 125.9 19.37 9.500
18929.4 0 126.3 19.37 1.331 2.373
19.92 125.9 19.37 9.500
18928.1 0 126.3 19.37 1.331 2.373
20.00 125.9 19.37 9.500
18926.9 0 126.3 19.37 1.330 2.374
20.06 125.9 19.37 9.500
18925.7 0 126.3 19.37 1.330 2.374
20.13 125.9 19.37 9.500
18924.7 0 126.3 19.37 1.330 2.375
20.19 125.9 19.37 9.500
18923.8 0 126.3 19.37 1.329 2.376
20.24 125.9 19.37 9.500
18922.8 0 126.3 19.37 1.329 2.377
20.30 125.9 19.37 9.500
18922.0 0 126.4 19.37 1.329 2.377
20.36 125.9 19.37 9.500
18921.1 0 126.4 19.37 1.329 2.378
20.43 125.9 19.37 9.500
18920.3 0 126.4 19.37 1.328 2.379
20.51 125.9 19.37 9.500
18919.6 0 126.4 19.37 1.328 2.379
20.59 125.9 19.37 9.500
18918.9 0 126.4 19.37 1.328 2.380
20.66 125.9 19.37 9.500
18918.3 0 126.4 19.37 1.328 2.381
20.73 125.9 19.37 9.500
18917.6 0 126.4 19.37 1.328 2.381
20.82 125.9 19.37 9.500
18917.1 0 126.4 19.37 1.327 2.382
20.90 125.9 19.37 9.500
18916.6 0 126.4 19.37 1.327 2.383
20.96 126.0 19.37 9.500
18916.1 0 126.4 19.37 1.327 2.383
21.03 126.0 19.37 9.500
18915.6 0 126.4 19.37 1.327 2.384
21.11 126.0 19.37 9.500
18915.3 0 126.5 19.37 1.327 2.385
21.18 126.0 19.37 9.500
18914.8 0 126.5 19.37 1.327 2.385
21.24 126.0 19.37 9.500
18914.3 0 126.5 19.37 1.327 2.386
21.33 126.0 19.37 9.500
18914.0 0 126.5 19.37 1.327 2.387
21.40 126.0 19.37 9.500
18913.7 0 126.5 19.37 1.326 2.387
21.48 126.0 19.37 9.500
18913.4 0 126.5 19.37 1.326 2.388
21.55 126.0 19.37 9.500
18913.0 0 126.5 19.37 1.326 2.389
21.62 126.0 19.37 9.500
18912.8 0 126.5 19.37 1.326 2.390
21.68 126.0 19.37 9.500
18912.5 0 126.5 19.37 1.326 2.390
21.76 126.0 19.37 9.500
18912.2 0 126.5 19.37 1.326 2.391
21.83 126.0 19.37 9.500
18912.0 0 126.5 19.37 1.326 2.392
21.91 126.0 19.37 9.500
18911.7 0 126.5 19.37 1.326 2.392
21.99 126.0 19.37 9.500
18911.4 0 126.5 19.37 1.326 2.393
22.05 126.0 19.37 9.500
18911.3 0 126.5 19.37 1.326 2.394
22.13 126.0 19.37 9.500
18911.0 0 126.5 19.37 1.326 2.395
22.20 126.0 19.37 9.500
18910.8 0 126.5 19.37 1.325 2.395
22.29 126.0 19.37 9.500
18910.6 0 126.5 19.37 1.325 2.396
22.38 126.0 19.37 9.500
18910.4 0 126.5 19.37 1.325 2.396
22.47 126.0 19.37 9.500
18910.2 0 126.5 19.37 1.325 2.397
22.55 126.0 19.37 9.500
18910.0 0 126.5 19.37 1.325 2.398
22.63 126.0 19.37 9.500
18909.9 0 126.5 19.37 1.325 2.398
22.70 126.0 19.37 9.500
18909.8 0 126.5 19.37 1.325 2.399
22.79 126.0 19.37 9.500
18909.5 0 126.5 19.37 1.325 2.400
22.87 126.0 19.37 9.500
18909.4 0 126.6 19.37 1.325 2.401
22.94 126.0 19.37 9.500
18909.3 0 126.6 19.37 1.325 2.401
23.03 126.0 19.37 9.500
18909.1 0 126.6 19.37 1.325 2.402
23.11 126.0 19.37 9.500
18909.0 0 126.6 19.37 1.325 2.403
23.20 126.0 19.37 9.500
18908.8 0 126.6 19.37 1.325 2.403
23.28 126.0 19.37 9.500
18908.7 0 126.6 19.37 1.325 2.404
23.35 126.0 19.37 9.500
18908.6 0 126.6 19.37 1.325 2.405
23.44 126.0 19.37 9.500
18908.5 0 126.6 19.37 1.325 2.405
23.54 126.0 19.37 9.500
18908.3 0 126.6 19.37 1.325 2.406
23.63 126.0 19.37 9.500
18908.2 0 126.6 19.37 1.325 2.407
23.72 126.0 19.37 9.500
18908.1 0 126.6 19.37 1.325 2.407
23.79 126.0 19.37 9.500
18908.1 0 126.6 19.37 1.325 2.408
23.88 126.0 19.37 9.500
18907.9 0 126.6 19.37 1.325 2.409
23.99 126.0 19.37 9.500
18907.8 0 126.6 19.37 1.325 2.409
24.07 126.0 19.37 9.500
18907.7 0 126.6 19.37 1.325 2.410
24.17 126.0 19.37 9.500
18907.6 0 126.6 19.37 1.325 2.411
24.24 126.0 19.37 9.500
18907.6 0 126.6 19.37 1.325 2.411
24.33 126.0 19.37 9.500
18907.4 0 126.6 19.37 1.325 2.412
24.43 126.0 19.37 9.500
18907.3 0 126.6 19.37 1.325 2.413
24.53 126.0 19.37 9.500
18907.3 0 126.6 19.37 1.325 2.413
24.62 126.0 19.37 9.500
18907.2 0 126.6 19.37 1.325 2.414
24.70 126.0 19.37 9.500
18907.1 0 126.6 19.37 1.325 2.415
24.78 126.0 19.37 9.500
18907.1 0 126.6 19.37 1.324 2.416
24.84 126.0 19.37 9.500
18907.0 0 126.6 19.37 1.324 2.416
24.95 126.0 19.37 9.500
18906.9 0 126.6 19.37 1.324 2.417
25.03 126.0 19.37 9.500
18906.8 0 126.6 19.37 1.324 2.418
25.14 126.0 19.37 9.500
18906.7 0 126.6 19.37 1.324 2.418
25.25 126.0 19.37 9.500
18906.6 0 126.6 19.37 1.324 2.419
25.33 126.0 19.37 9.500
18906.6 0 126.6 19.37 1.324 2.420
25.42 126.0 19.37 9.500
18906.5 0 126.6 19.37 1.324 2.420
25.52 126.0 19.37 9.500
18906.4 0 126.6 19.37 1.324 2.421
25.63 126.0 19.37 9.500
18906.4 0 126.6 19.37 1.324 2.422
25.72 126.0 19.37 9.500
18906.3 0 126.6 19.37 1.324 2.422
25.83 126.0 19.37 9.500
18906.2 0 126.6 19.37 1.324 2.423
25.95 126.0 19.37 9.500
18906.1 0 126.6 19.37 1.324 2.424
26.03 126.0 19.37 9.500
18905.9 1 126.6 19.37 1.324 2.423
26.07 126.0 19.37 9.500
18905.9 0 126.6 19.37 1.324 2.424
26.16 126.0 19.37 9.500
18905.8 0 126.6 19.37 1.324 2.425
26.24 126.0 19.37 9.500
18905.8 0 126.6 19.37 1.324 2.426
26.33 126.0 19.37 9.500
18905.7 0 126.6 19.37 1.324 2.426
26.42 126.0 19.37 9.500
18905.6 0 126.6 19.37 1.324 2.427
26.53 126.0 19.37 9.500
18905.6 0 126.6 19.37 1.324 2.427
26.65 126.0 19.37 9.500
18905.4 0 126.6 19.37 1.324 2.429
26.84 126.0 19.37 9.500
18905.4 0 126.6 19.37 1.324 2.430
26.94 126.0 19.37 9.500
18905.4 0 126.6 19.37 1.324 2.431
27.01 126.0 19.37 9.500
18905.2 0 126.6 19.37 1.324 2.432
27.25 126.0 19.37 9.500
18905.1 0 126.6 19.37 1.324 2.432
27.35 126.0 19.37 9.500
18905.0 0 126.6 19.37 1.324 2.433
27.45 126.0 19.37 9.500
18905.0 0 126.6 19.37 1.324 2.434
27.54 126.0 19.37 9.500
18904.9 0 126.6 19.37 1.324 2.434
27.64 126.0 19.37 9.500
18904.9 0 126.6 19.37 1.324 2.435
27.74 126.0 19.37 9.500
18904.8 0 126.6 19.37 1.324 2.436
27.85 126.0 19.37 9.500
18904.7 1 126.6 19.37 1.324 2.435
27.89 126.0 19.37 9.500
18904.6 0 126.6 19.37 1.324 2.436
27.98 126.0 19.37 9.500
18904.5 0 126.6 19.37 1.324 2.437
28.09 126.0 19.37 9.500
18904.5 0 126.6 19.37 1.324 2.438
28.19 126.0 19.37 9.500
18904.4 0 126.6 19.37 1.324 2.439
28.36 126.0 19.37 9.500
18904.4 0 126.6 19.37 1.324 2.440
28.46 126.0 19.37 9.500
18904.3 0 126.6 19.37 1.324 2.441
28.58 126.0 19.37 9.500
18904.3 0 126.6 19.37 1.324 2.441
28.67 126.0 19.37 9.500
18904.1 0 126.6 19.37 1.324 2.443
28.89 126.0 19.37 9.500
18903.9 1 126.6 19.37 1.324 2.443
28.94 126.0 19.37 9.500
18903.9 0 126.6 19.37 1.324 2.443
29.05 126.0 19.37 9.500
18903.7 1 126.6 19.37 1.324 2.443
29.10 126.0 19.37 9.500
18903.7 0 126.6 19.37 1.324 2.444
29.18 126.0 19.37 9.500
18903.6 1 126.6 19.37 1.324 2.444
29.23 126.0 19.37 9.500
18903.5 0 126.6 19.37 1.324 2.444
29.32 126.0 19.37 9.500
18903.4 1 126.6 19.37 1.324 2.444
29.37 126.0 19.37 9.500
18903.3 0 126.6 19.37 1.324 2.445
29.46 126.0 19.37 9.500
18903.2 1 126.6 19.37 1.324 2.445
29.50 126.0 19.37 9.500
18903.2 0 126.6 19.37 1.324 2.446
29.59 126.0 19.37 9.500
18903.1 1 126.6 19.37 1.324 2.446
29.63 126.0 19.37 9.500
18903.0 0 126.6 19.37 1.324 2.446
29.74 126.0 19.37 9.500
18902.9 1 126.6 19.37 1.324 2.446
29.78 126.0 19.37 9.500
18902.7 1 126.6 19.37 1.323 2.446
29.82 126.0 19.37 9.500
18902.7 0 126.6 19.37 1.323 2.447
29.90 126.0 19.37 9.500
18902.6 1 126.6 19.37 1.323 2.447
29.94 126.0 19.37 9.500
18902.4 1 126.6 19.37 1.323 2.446
29.99 126.0 19.37 9.500
18902.2 1 126.6 19.37 1.323 2.446
30.03 126.0 19.37 9.500
18902.1 1 126.6 19.37 1.323 2.446
30.07 126.0 19.37 9.500
18901.9 1 126.6 19.37 1.323 2.446
30.11 126.0 19.37 9.500
18901.7 1 126.6 19.37 1.323 2.446
30.15 126.0 19.37 9.500
18901.6 1 126.6 19.37 1.323 2.446
30.19 126.0 19.37 9.500
18901.4 1 126.6 19.37 1.323 2.446
30.23 126.0 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.86E-05 | -0.01 0.00 -1.00 0.04 0.00 -0.01 0.00
4.65E-04 | 0.02 0.00 -0.04 -1.00 0.01 -0.01 0.00
1.65E-02 | -0.99 -0.02 0.01 -0.02 0.00 -0.11 -0.01
1.37E-02 | -0.11 0.00 -0.01 -0.01 0.00 0.99 0.05
1.75E+00 | 0.00 0.26 0.00 0.00 0.00 0.05 -0.97
4.13E+00 | 0.02 -0.97 0.00 0.00 0.00 0.02 -0.26
3.49E+04 | 0.00 0.00 0.00 0.01 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 126.619 +/- 0.148243 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.99441 1
3 3 1 gaussian norm 1.32277 +/- 0.703261E-02 1
4 4 2 powerlaw PhoIndex 2.44565 +/- 1.24196 1
5 5 2 powerlaw norm 30.2314 +/- 186.928 1
6 6 3 gaussian LineE keV 126.036 +/- 0.141781 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.43507 2
8 3 3 gaussian norm 1.32277 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 30.2314 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 18901.40 using 198 PHA bins.
Reduced chi-squared = 99.48104 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 ( 95.946) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 95.946) > 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 1.227 photons ( 2.5562E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.204 photons ( 2.4981E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:41 12-Jun-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 3.305 +/- 6.8149E-03
Net count rate (cts/s) for file 2 3.305 +/- 6.8149E-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 = 285888.8 using 168 PHA bins.
Reduced chi-squared = 1786.805 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15347.99 using 168 PHA bins.
Reduced chi-squared = 95.92494 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1521.68 -3 88.01 11.56 0.2067 0.8265
0.4992 88.90 11.02 0.8251
593.472 -4 84.75 10.86 0.1933 0.8058
0.4329 87.04 10.71 0.8071
574.985 -5 84.92 9.980 0.1892 0.8039
0.4325 87.03 10.44 0.8043
574.192 -1 84.77 10.24 0.1914 0.8042
0.4322 87.02 10.55 0.8045
573.699 -2 84.79 10.09 0.1917 0.8047
0.4328 87.02 10.56 0.8049
573.602 -3 84.77 10.17 0.1923 0.8062
0.4354 87.02 10.58 0.8065
573.597 -4 84.79 10.12 0.1923 0.8068
0.4365 87.03 10.57 0.8071
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.67E-07 | 0.00 0.00 -0.20 0.56 -0.60 0.00 0.00 0.54
7.78E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.25E-06 | 0.00 0.04 -0.98 -0.08 0.17 0.00 0.04 -0.09
3.84E-04 | 0.02 0.13 -0.04 -0.44 -0.76 0.02 0.19 -0.42
1.04E-03 | -0.01 -0.56 0.02 0.04 0.06 0.00 0.82 0.04
2.95E-03 | 0.00 -0.81 -0.07 -0.10 -0.15 0.01 -0.54 -0.10
4.75E-02 | -0.91 0.01 0.00 0.00 -0.01 0.42 0.00 0.00
5.50E-02 | -0.42 0.00 0.00 -0.01 -0.02 -0.91 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 84.7890 +/- 0.220834 1
2 2 1 gaussian Sigma keV 10.1228 +/- 0.479632E-01 1
3 3 1 gaussian norm 0.192302 +/- 0.454885E-02 1
4 4 2 powerlaw PhoIndex 0.806805 +/- 0.106777E-01 1
5 5 2 powerlaw norm 0.436530 +/- 0.180913E-01 1
6 6 3 gaussian LineE keV 87.0288 +/- 0.231539 2
7 7 3 gaussian Sigma keV 10.5737 +/- 0.396238E-01 2
8 3 3 gaussian norm 0.192302 = par 3 2
9 8 4 powerlaw PhoIndex 0.807053 +/- 0.102562E-01 2
10 5 4 powerlaw norm 0.436530 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 573.5969 using 168 PHA bins.
Reduced chi-squared = 3.584981 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 ( 3.435) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.435) > 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 1.314 photons ( 1.6187E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.312 photons ( 1.6241E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
46.00494
=====best line=====
84.7828 0.220106
=====best sigma=====
10.1473 0.494501E-01
=====norm=====
0.192439 0.454591E-02
=====phoindx=====
0.806941 0.106769E-01
=====pow_norm=====
0.436771 0.181469E-01
=====best line=====
87.0289 0.231434
=====best sigma=====
10.5794 0.395977E-01
=====norm=====
0.192439 par
=====phoindx=====
0.807208 0.102556E-01
=====pow_norm=====
0.436771 par
=====redu_chi=====
3.584838
=====area_flux=====
1.314
=====area_flux_f=====
1.312
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 13 1 640 2000 1356.5248 0 0.192439 0.454591E-02 10.1473 0.494501E-01 0.806941 0.106769E-01 0.436771 0.181469E-01 1.314 640 2000 1392.4624 0 0.192439 0.454591E-02 10.5794 0.395977E-01 0.807208 0.102556E-01 0.436771 0.181469E-01 1.312 3.584838 1
=====redu_chi=====
557.7507
=====best line=====
126.619 0.148243
=====best sigma=====
19.3655 1.99441
=====norm=====
1.32277 0.703261E-02
=====phoindx=====
2.44565 1.24196
=====pow_norm=====
30.2314 186.928
=====best line=====
126.036 0.141781
=====best sigma=====
19.3655 1.43507
=====norm=====
1.32277 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
30.2314 par
=====redu_chi=====
99.48104
=====area_flux=====
1.227
=====area_flux_f=====
1.204
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 13 1 1600 3200 2025.904 0 1.32277 0.703261E-02 309.848 31.91056 2.44565 1.24196 30.2314 186.928 1.227 1600 3200 2016.576 0 1.32277 0.703261E-02 309.848 22.96112 9.50000 -1.00000 30.2314 186.928 1.204 99.48104 1
=====redu_chi=====
95.92494
=====best line=====
84.7890 0.220834
=====best sigma=====
10.1228 0.479632E-01
=====norm=====
0.192302 0.454885E-02
=====phoindx=====
0.806805 0.106777E-01
=====pow_norm=====
0.436530 0.180913E-01
=====best line=====
87.0288 0.231539
=====best sigma=====
10.5737 0.396238E-01
=====norm=====
0.192302 par
=====phoindx=====
0.807053 0.102562E-01
=====pow_norm=====
0.436530 par
=====redu_chi=====
3.584981
=====area_flux=====
1.314
=====area_flux_f=====
1.312
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 13 1 640 2000 1356.624 0 0.192302 0.454885E-02 10.1228 0.479632E-01 0.806805 0.106777E-01 0.436530 0.180913E-01 1.314 640 2000 1392.4608 0 0.192302 0.454885E-02 10.5737 0.396238E-01 0.807053 0.102562E-01 0.436530 0.180913E-01 1.312 3.584981 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:41 12-Jun-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 3.309 +/- 6.8191E-03
Net count rate (cts/s) for file 2 3.309 +/- 6.8191E-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 = 290015.5 using 168 PHA bins.
Reduced chi-squared = 1812.597 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16908.09 using 168 PHA bins.
Reduced chi-squared = 105.6755 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2716.92 -3 83.47 16.39 0.2731 0.9370
0.6652 83.58 16.08 0.9327
1944.29 -3 76.55 8.973 0.1648 0.8044
0.4087 77.52 8.959 0.8092
1397.21 -4 77.00 11.07 0.2041 0.8745
0.5447 78.74 13.92 0.8718
842.462 -5 77.67 9.752 0.1736 0.8714
0.5836 79.17 9.253 0.8716
762.674 -1 77.18 9.690 0.1952 0.8731
0.5787 78.88 10.30 0.8739
754.131 -2 77.15 9.845 0.2017 0.8741
0.5776 78.78 10.08 0.8749
753.985 -3 77.18 9.814 0.2018 0.8752
0.5802 78.80 10.14 0.8760
753.976 0 77.18 9.820 0.2019 0.8752
0.5802 78.80 10.13 0.8760
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.62E-07 | 0.00 0.00 -0.22 0.61 -0.49 0.00 0.00 0.58
7.89E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.69E-06 | 0.00 0.01 -0.97 -0.12 0.13 0.00 0.04 -0.13
5.07E-04 | 0.03 0.01 -0.02 -0.36 -0.86 0.03 0.06 -0.35
1.79E-03 | 0.00 0.08 -0.04 -0.03 -0.05 -0.02 -0.99 -0.03
5.16E-02 | -0.54 0.52 0.01 -0.01 -0.02 -0.66 0.05 -0.01
3.99E-02 | -0.77 -0.62 -0.01 -0.01 -0.02 0.14 -0.05 -0.01
4.35E-02 | 0.34 -0.58 -0.01 -0.01 -0.01 -0.74 -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 77.1775 +/- 0.208965 1
2 2 1 gaussian Sigma keV 9.81978 +/- 0.209843 1
3 3 1 gaussian norm 0.201894 +/- 0.397469E-02 1
4 4 2 powerlaw PhoIndex 0.875205 +/- 0.890470E-02 1
5 5 2 powerlaw norm 0.580192 +/- 0.207512E-01 1
6 6 3 gaussian LineE keV 78.7973 +/- 0.216634 2
7 7 3 gaussian Sigma keV 10.1255 +/- 0.454844E-01 2
8 3 3 gaussian norm 0.201894 = par 3 2
9 8 4 powerlaw PhoIndex 0.875983 +/- 0.855005E-02 2
10 5 4 powerlaw norm 0.580192 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 753.9755 using 168 PHA bins.
Reduced chi-squared = 4.712347 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 ( 4.515) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.515) > 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 1.315 photons ( 1.5876E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.311 photons ( 1.5883E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:41 12-Jun-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 8.039 +/- 1.0628E-02
Net count rate (cts/s) for file 2 8.039 +/- 1.0628E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.729 +/- 1.2627E-02( 58.8% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.729 +/- 1.2627E-02( 58.8% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.0243321E+07 using 198 PHA bins.
Reduced chi-squared = 53912.21 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 110088.9 using 198 PHA bins.
Reduced chi-squared = 579.4150 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
68541.5 -3 111.5 17.85 0.5276 2.804
0.1473 98.29 17.79 2.753
48527.8 -4 93.44 19.35 2.268 8.902
994.5 94.31 19.04 7.871
46967.8 -1 94.75 19.36 2.276 9.274
319.3 94.94 19.30 9.412
45833.1 -1 95.97 19.37 2.269 2.269
10.66 95.76 19.34 9.466
44607.1 -1 97.09 19.37 2.247 2.347
7.724 96.73 19.36 9.498
43510.9 -1 98.15 19.37 2.227 2.393
7.608 97.75 19.36 9.499
42227.7 -1 99.23 19.37 2.197 2.464
7.067 98.86 19.36 9.500
40929.5 -1 100.3 19.37 2.169 2.534
7.672 99.98 19.37 9.500
39377.0 -1 101.4 19.37 2.133 2.622
8.035 101.2 19.37 9.500
38010.6 -1 102.4 19.37 2.105 2.777
7.877 102.3 19.37 9.500
35878.9 -1 103.7 19.37 2.051 3.349
2.163 103.6 19.37 9.500
34226.8 -1 104.8 19.37 2.018 7.929
317.3 104.8 19.37 9.500
32101.7 -1 106.0 19.37 1.968 9.269
155.1 106.0 19.37 9.500
28431.4 0 107.5 19.37 1.846 9.427
35.28 107.4 19.37 9.500
25505.8 0 109.1 19.37 1.758 9.500
16.34 109.0 19.37 9.500
24887.7 -1 110.5 19.37 1.788 9.500
7.952 110.4 19.37 9.500
23518.9 -1 111.6 19.37 1.750 9.500
3.398 111.5 19.37 9.500
20692.6 0 113.7 19.37 1.629 9.500
0.3982 113.0 19.37 9.500
19754.0 0 114.8 19.37 1.577 9.500
7.2200E-02 113.5 19.37 9.500
19184.3 0 115.7 19.37 1.541 9.500
3.0717E-02 114.1 19.37 9.500
18839.4 0 116.5 19.37 1.515 9.500
9.8392E-03 114.5 19.37 9.500
18641.8 0 117.1 19.37 1.495 9.500
4.5170E-03 114.8 19.37 9.500
18512.4 0 117.5 19.37 1.481 9.500
8.4742E-04 115.1 19.34 9.500
18404.4 0 117.9 19.37 1.470 9.500
2.3187E-04 115.3 19.28 9.500
18291.0 0 118.3 19.37 1.452 9.500
2.3994E-05 115.6 19.18 9.500
18253.1 0 118.5 19.37 1.445 9.500
1.3287E-06 115.8 19.13 9.500
18217.2 0 118.6 19.37 1.440 9.500
6.2110E-07 115.9 19.08 9.500
18190.3 0 118.6 19.37 1.436 9.500
2.6870E-07 116.1 19.04 9.500
18169.6 0 118.7 19.37 1.432 9.500
9.3304E-08 116.2 19.00 9.500
18155.0 0 118.8 19.37 1.430 9.500
5.5711E-09 116.2 18.97 9.500
18137.5 0 118.8 19.37 1.427 9.500
1.0964E-10 116.3 18.93 9.500
18128.5 0 118.9 19.37 1.425 9.500
2.4358E-11 116.4 18.91 9.500
18119.9 0 118.9 19.37 1.424 9.500
3.0800E-12 116.4 18.89 9.500
18113.5 0 118.9 19.37 1.422 9.500
4.1910E-13 116.5 18.87 9.500
Fit parameter 5 has pegged
17896.5 0 118.8 19.37 1.413 9.500
0.000 116.2 18.38 9.500
Fit parameter 5 has pegged
17888.5 0 118.8 19.37 1.408 9.500
0.000 116.3 18.34 9.500
Fit parameter 5 has pegged
17882.6 0 118.8 19.37 1.404 9.500
0.000 116.4 18.32 9.500
Fit parameter 5 has pegged
17879.5 0 118.8 19.37 1.403 9.500
0.000 116.5 18.29 9.500
Fit parameter 5 has pegged
17876.4 0 118.8 19.37 1.401 9.500
0.000 116.5 18.27 9.500
Fit parameter 5 has pegged
17873.3 0 118.8 19.37 1.400 9.500
0.000 116.6 18.26 9.500
Fit parameter 5 has pegged
17871.1 0 118.8 19.37 1.399 9.500
0.000 116.6 18.24 9.500
Fit parameter 5 has pegged
17870.2 0 118.8 19.37 1.398 9.500
0.000 116.6 18.24 9.500
Fit parameter 5 has pegged
17868.9 0 118.8 19.37 1.398 9.500
0.000 116.6 18.23 9.500
Fit parameter 5 has pegged
17867.6 0 118.8 19.37 1.397 9.500
0.000 116.7 18.22 9.500
Fit parameter 5 has pegged
17867.1 0 118.8 19.37 1.397 9.500
0.000 116.7 18.22 9.500
Fit parameter 5 has pegged
17866.2 0 118.8 19.37 1.397 9.500
0.000 116.7 18.21 9.500
Fit parameter 5 has pegged
17865.9 0 118.8 19.37 1.396 9.500
0.000 116.7 18.21 9.500
Fit parameter 5 has pegged
17864.3 0 118.9 19.37 1.396 9.500
0.000 116.7 18.21 9.500
Fit parameter 5 has pegged
17862.8 0 118.9 19.37 1.395 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17859.2 0 118.9 19.37 1.395 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17856.1 0 118.9 19.37 1.394 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17853.1 0 119.0 19.37 1.393 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17850.6 0 119.0 19.37 1.393 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17848.3 0 119.0 19.37 1.392 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17846.3 0 119.1 19.37 1.391 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17844.3 0 119.1 19.37 1.391 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17842.6 0 119.1 19.37 1.390 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17841.2 0 119.1 19.37 1.390 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17839.8 0 119.2 19.37 1.389 9.500
0.000 116.7 18.20 9.500
Fit parameter 5 has pegged
17838.6 0 119.2 19.37 1.389 9.500
0.000 116.7 18.19 9.500
Fit parameter 5 has pegged
17837.3 0 119.2 19.37 1.388 9.500
0.000 116.7 18.19 9.500
Fit parameter 5 has pegged
17836.3 0 119.2 19.37 1.388 9.500
0.000 116.7 18.19 9.500
Fit parameter 5 has pegged
17835.4 0 119.2 19.37 1.387 9.500
0.000 116.7 18.19 9.500
Fit parameter 5 has pegged
17834.5 0 119.3 19.37 1.387 9.500
0.000 116.8 18.19 9.500
Fit parameter 5 has pegged
17833.7 0 119.3 19.37 1.387 9.500
0.000 116.8 18.19 9.500
Fit parameter 5 has pegged
17833.1 0 119.3 19.37 1.386 9.500
0.000 116.8 18.19 9.500
Fit parameter 5 has pegged
17832.4 0 119.3 19.37 1.386 9.500
0.000 116.8 18.18 9.500
Fit parameter 5 has pegged
17831.8 0 119.3 19.37 1.386 9.500
0.000 116.8 18.18 9.500
Fit parameter 5 has pegged
17831.2 0 119.3 19.37 1.385 9.500
0.000 116.8 18.18 9.500
Fit parameter 5 has pegged
17830.8 0 119.3 19.37 1.385 9.500
0.000 116.8 18.18 9.500
Fit parameter 5 has pegged
17830.4 0 119.3 19.37 1.385 9.500
0.000 116.8 18.18 9.500
Fit parameter 5 has pegged
17830.0 0 119.4 19.37 1.384 9.500
0.000 116.8 18.18 9.500
Fit parameter 5 has pegged
17829.6 0 119.4 19.37 1.384 9.500
0.000 116.8 18.18 9.500
Fit parameter 5 has pegged
17829.2 0 119.4 19.37 1.384 9.500
0.000 116.8 18.17 9.500
Fit parameter 5 has pegged
17829.0 0 119.4 19.37 1.384 9.500
0.000 116.8 18.17 9.500
Fit parameter 5 has pegged
17828.7 0 119.4 19.37 1.383 9.500
0.000 116.8 18.17 9.500
Fit parameter 5 has pegged
17828.3 0 119.4 19.37 1.383 9.500
0.000 116.8 18.17 9.500
Fit parameter 5 has pegged
17828.1 0 119.4 19.37 1.383 9.500
0.000 116.8 18.17 9.500
Fit parameter 5 has pegged
17827.8 0 119.4 19.37 1.383 9.500
0.000 116.8 18.17 9.500
Fit parameter 5 has pegged
17827.5 0 119.4 19.37 1.383 9.500
0.000 116.8 18.17 9.500
Fit parameter 5 has pegged
17827.4 0 119.4 19.37 1.382 9.500
0.000 116.8 18.16 9.500
Fit parameter 5 has pegged
17827.2 0 119.4 19.37 1.382 9.500
0.000 116.8 18.16 9.500
Fit parameter 5 has pegged
17827.0 0 119.4 19.37 1.382 9.500
0.000 116.8 18.16 9.500
Fit parameter 5 has pegged
17826.8 0 119.4 19.37 1.382 9.500
0.000 116.8 18.16 9.500
Fit parameter 5 has pegged
17826.6 0 119.4 19.37 1.382 9.500
0.000 116.8 18.16 9.500
Fit parameter 5 has pegged
17826.5 0 119.4 19.37 1.381 9.500
0.000 116.8 18.16 9.500
Fit parameter 5 has pegged
17826.3 0 119.4 19.37 1.381 9.500
0.000 116.8 18.16 9.500
Fit parameter 5 has pegged
17826.1 0 119.5 19.37 1.381 9.500
0.000 116.8 18.16 9.500
Fit parameter 5 has pegged
17825.9 0 119.5 19.37 1.381 9.500
0.000 116.8 18.15 9.500
Fit parameter 5 has pegged
17825.9 0 119.5 19.37 1.381 9.500
0.000 116.8 18.15 9.500
Fit parameter 5 has pegged
17825.8 0 119.5 19.37 1.381 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17825.6 0 119.5 19.37 1.381 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17825.5 0 119.5 19.37 1.381 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17825.4 0 119.5 19.37 1.380 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17825.3 0 119.5 19.37 1.380 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17825.2 0 119.5 19.37 1.380 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17825.2 0 119.5 19.37 1.380 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17825.2 0 119.5 19.37 1.380 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17825.0 0 119.5 19.37 1.380 9.500
0.000 116.9 18.14 9.500
Fit parameter 5 has pegged
17825.0 0 119.5 19.37 1.380 9.500
0.000 116.9 18.14 9.500
17825.0 4 119.5 19.37 1.380 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17825.0 4 119.5 19.37 1.380 9.500
0.000 116.9 18.15 9.500
17824.9 0 119.5 19.37 1.380 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17824.8 0 119.5 19.37 1.380 9.500
0.000 116.9 18.15 9.500
Fit parameter 5 has pegged
17824.7 0 119.5 19.37 1.380 9.500
0.000 116.9 18.14 9.500
Fit parameter 5 has pegged
17824.6 0 119.5 19.37 1.379 9.500
0.000 116.9 18.14 9.500
Fit parameter 5 has pegged
17824.6 0 119.5 19.37 1.379 9.500
0.000 116.9 18.14 9.500
Fit parameter 5 has pegged
17824.6 0 119.5 19.37 1.379 9.500
0.000 116.9 18.14 9.500
Fit parameter 5 has pegged
17824.6 0 119.5 19.37 1.379 9.500
0.000 116.9 18.14 9.500
Fit parameter 5 has pegged
17824.5 0 119.5 19.37 1.379 9.500
0.000 116.9 18.14 9.500
Fit parameter 5 has pegged
17824.4 0 119.5 19.37 1.379 9.500
0.000 116.9 18.14 9.500
Fit parameter 5 has pegged
17824.4 0 119.5 19.37 1.379 9.500
0.000 116.9 18.13 9.500
Fit parameter 5 has pegged
17824.4 0 119.5 19.37 1.379 9.500
0.000 116.9 18.13 9.500
Fit parameter 5 has pegged
17824.3 0 119.5 19.37 1.379 9.500
0.000 116.9 18.13 9.500
Fit parameter 5 has pegged
17824.3 0 119.5 19.37 1.379 9.500
0.000 116.9 18.13 9.500
Fit parameter 5 has pegged
17824.2 1 119.5 19.37 1.379 9.500
0.000 116.9 18.13 9.500
Fit parameter 5 has pegged
17824.2 4 119.5 19.37 1.379 9.500
0.000 116.9 18.13 9.500
17824.2 4 119.5 19.37 1.379 9.500
0.000 116.9 18.13 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.00E-05 | -0.01 0.00 -1.00 -0.01 0.01
6.33E-03 | 0.01 0.00 0.00 -0.69 -0.73
1.42E-02 | -0.99 -0.06 0.01 0.10 -0.11
3.16E-02 | 0.14 0.04 -0.01 0.72 -0.68
1.82E+00 | -0.07 1.00 0.00 -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 119.509 +/- 0.151348 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.34458 1
3 3 1 gaussian norm 1.37880 +/- 0.576705E-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 116.905 +/- 0.142678 2
7 7 3 gaussian Sigma keV 18.1317 +/- 0.137023 2
8 3 3 gaussian norm 1.37880 = 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 = 17824.20 using 198 PHA bins.
Reduced chi-squared = 93.81158 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 ( 90.478) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 90.478) > 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 1.162 photons ( 2.3284E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.137 photons ( 2.2324E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:42 12-Jun-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 3.309 +/- 6.8191E-03
Net count rate (cts/s) for file 2 3.309 +/- 6.8191E-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 = 355286.8 using 168 PHA bins.
Reduced chi-squared = 2220.542 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 28258.81 using 168 PHA bins.
Reduced chi-squared = 176.6176 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3133.93 -3 86.00 13.92 0.1883 0.9161
0.6678 85.98 13.09 0.9100
1850.38 -4 73.85 15.26 0.2167 0.8437
0.4818 75.57 13.65 0.8466
1399.62 -2 80.29 7.986 0.1349 0.8528
0.5479 80.21 9.202 0.8504
994.011 -1 77.33 11.95 0.1817 0.8552
0.5419 78.65 9.765 0.8556
765.065 -2 77.49 9.762 0.1939 0.8605
0.5486 78.77 9.964 0.8614
762.546 -3 77.13 9.914 0.2029 0.8722
0.5709 78.77 10.62 0.8726
754.669 -4 77.20 9.744 0.2001 0.8750
0.5801 78.81 9.995 0.8756
754.564 -5 77.16 9.860 0.2025 0.8757
0.5811 78.80 10.27 0.8765
754.068 -6 77.19 9.803 0.2015 0.8755
0.5810 78.80 10.08 0.8762
753.983 -7 77.17 9.834 0.2021 0.8756
0.5811 78.80 10.15 0.8764
753.969 0 77.18 9.831 0.2021 0.8756
0.5811 78.80 10.13 0.8764
753.969 1 77.18 9.831 0.2021 0.8756
0.5811 78.80 10.13 0.8764
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.63E-07 | 0.00 0.00 -0.22 0.61 -0.49 0.00 0.00 0.58
7.89E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.70E-06 | 0.00 0.01 -0.97 -0.12 0.13 0.00 0.04 -0.13
5.09E-04 | 0.03 0.01 -0.02 -0.36 -0.86 0.03 0.06 -0.35
1.83E-03 | 0.00 0.08 -0.04 -0.03 -0.05 -0.02 -0.99 -0.03
5.16E-02 | -0.55 0.53 0.01 -0.01 -0.02 -0.65 0.06 -0.01
4.00E-02 | -0.77 -0.62 -0.01 -0.01 -0.02 0.15 -0.05 -0.01
4.34E-02 | 0.32 -0.58 -0.01 -0.01 -0.01 -0.75 -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 77.1762 +/- 0.209210 1
2 2 1 gaussian Sigma keV 9.83079 +/- 0.210083 1
3 3 1 gaussian norm 0.202113 +/- 0.397798E-02 1
4 4 2 powerlaw PhoIndex 0.875616 +/- 0.890722E-02 1
5 5 2 powerlaw norm 0.581135 +/- 0.207903E-01 1
6 6 3 gaussian LineE keV 78.7984 +/- 0.216153 2
7 7 3 gaussian Sigma keV 10.1344 +/- 0.459296E-01 2
8 3 3 gaussian norm 0.202113 = par 3 2
9 8 4 powerlaw PhoIndex 0.876412 +/- 0.855250E-02 2
10 5 4 powerlaw norm 0.581135 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 753.9690 using 168 PHA bins.
Reduced chi-squared = 4.712306 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 ( 4.515) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.515) > 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 1.315 photons ( 1.5876E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.311 photons ( 1.5882E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
105.6755
=====best line=====
77.1775 0.208965
=====best sigma=====
9.81978 0.209843
=====norm=====
0.201894 0.397469E-02
=====phoindx=====
0.875205 0.890470E-02
=====pow_norm=====
0.580192 0.207512E-01
=====best line=====
78.7973 0.216634
=====best sigma=====
10.1255 0.454844E-01
=====norm=====
0.201894 par
=====phoindx=====
0.875983 0.855005E-02
=====pow_norm=====
0.580192 par
=====redu_chi=====
4.712347
=====area_flux=====
1.315
=====area_flux_f=====
1.311
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 14 1 640 2000 1234.84 0 0.201894 0.397469E-02 9.81978 0.209843 0.875205 0.890470E-02 0.580192 0.207512E-01 1.315 640 2000 1260.7568 0 0.201894 0.397469E-02 10.1255 0.454844E-01 0.875983 0.855005E-02 0.580192 0.207512E-01 1.311 4.712347 1
=====redu_chi=====
579.4150
=====best line=====
119.509 0.151348
=====best sigma=====
19.3655 1.34458
=====norm=====
1.37880 0.576705E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.905 0.142678
=====best sigma=====
18.1317 0.137023
=====norm=====
1.37880 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
93.81158
=====area_flux=====
1.162
=====area_flux_f=====
1.137
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 14 1 1600 3200 1912.144 0 1.37880 0.576705E-02 309.848 21.51328 9.50000 -1.00000 0.00000 -1.00000 1.162 1600 3200 1870.48 0 1.37880 0.576705E-02 290.1072 2.192368 9.50000 -1.00000 0.00000 -1.00000 1.137 93.81158 1
=====redu_chi=====
176.6176
=====best line=====
77.1762 0.209210
=====best sigma=====
9.83079 0.210083
=====norm=====
0.202113 0.397798E-02
=====phoindx=====
0.875616 0.890722E-02
=====pow_norm=====
0.581135 0.207903E-01
=====best line=====
78.7984 0.216153
=====best sigma=====
10.1344 0.459296E-01
=====norm=====
0.202113 par
=====phoindx=====
0.876412 0.855250E-02
=====pow_norm=====
0.581135 par
=====redu_chi=====
4.712306
=====area_flux=====
1.315
=====area_flux_f=====
1.311
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 14 1 640 2000 1234.8192 0 0.202113 0.397798E-02 9.83079 0.210083 0.875616 0.890722E-02 0.581135 0.207903E-01 1.315 640 2000 1260.7744 0 0.202113 0.397798E-02 10.1344 0.459296E-01 0.876412 0.855250E-02 0.581135 0.207903E-01 1.311 4.712306 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 19:18:42 12-Jun-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 3.281 +/- 6.7896E-03
Net count rate (cts/s) for file 2 3.281 +/- 6.7896E-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 = 295777.6 using 168 PHA bins.
Reduced chi-squared = 1848.610 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13907.20 using 168 PHA bins.
Reduced chi-squared = 86.91998 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2255.71 -3 84.09 14.96 0.2135 0.8782
0.5689 84.63 14.35 0.8753
1920.91 -4 78.12 8.354 0.1096 0.7895
0.4050 79.93 8.749 0.7925
1262.63 -1 79.64 9.667 0.1735 0.7947
0.4075 81.33 12.90 0.7956
911.336 -2 79.51 8.885 0.1756 0.8187
0.4467 80.62 9.524 0.8178
903.045 -1 79.43 9.513 0.1883 0.8212
0.4504 81.04 11.00 0.8216
827.758 -2 79.56 9.400 0.1888 0.8419
0.4888 81.12 9.954 0.8415
822.694 0 79.56 9.440 0.1899 0.8415
0.4899 81.15 10.07 0.8417
817.613 -1 79.55 9.506 0.1916 0.8434
0.4941 81.17 10.10 0.8439
789.696 -2 79.63 9.558 0.1938 0.8602
0.5275 81.26 10.18 0.8602
769.460 -2 79.70 9.582 0.1950 0.8730
0.5572 81.33 10.18 0.8731
765.842 -3 79.88 9.714 0.1996 0.9112
0.6443 81.53 10.36 0.9103
736.026 -4 79.97 9.740 0.2011 0.9256
0.6925 81.61 10.34 0.9255
733.367 -5 79.97 9.749 0.2014 0.9258
0.6967 81.62 10.35 0.9264
733.363 -6 79.98 9.746 0.2013 0.9257
0.6966 81.62 10.35 0.9263
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.29E-07 | 0.00 0.00 -0.24 0.63 -0.42 0.00 0.00 0.60
8.20E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.32E-06 | 0.00 0.01 -0.97 -0.14 0.13 0.00 0.05 -0.15
6.99E-04 | 0.03 0.01 -0.01 -0.30 -0.84 0.03 0.36 -0.28
1.10E-03 | -0.01 -0.07 0.05 0.12 0.31 0.00 0.93 0.12
3.78E-02 | 0.83 0.53 0.01 0.01 0.03 -0.16 0.04 0.01
4.88E-02 | -0.39 0.33 0.00 -0.01 -0.03 -0.86 0.03 -0.01
4.28E-02 | -0.41 0.77 0.01 0.01 0.02 0.48 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 79.9763 +/- 0.200541 1
2 2 1 gaussian Sigma keV 9.74589 +/- 0.204488 1
3 3 1 gaussian norm 0.201319 +/- 0.396768E-02 1
4 4 2 powerlaw PhoIndex 0.925672 +/- 0.952122E-02 1
5 5 2 powerlaw norm 0.696595 +/- 0.262366E-01 1
6 6 3 gaussian LineE keV 81.6157 +/- 0.216929 2
7 7 3 gaussian Sigma keV 10.3493 +/- 0.347688E-01 2
8 3 3 gaussian norm 0.201319 = par 3 2
9 8 4 powerlaw PhoIndex 0.926348 +/- 0.914803E-02 2
10 5 4 powerlaw norm 0.696595 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 733.3626 using 168 PHA bins.
Reduced chi-squared = 4.583516 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 ( 4.391) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.391) > 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 1.279 photons ( 1.5466E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.276 photons ( 1.5481E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 19:18:42 12-Jun-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 7.755 +/- 1.0439E-02
Net count rate (cts/s) for file 2 7.755 +/- 1.0439E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.475 +/- 1.2453E-02( 57.7% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.475 +/- 1.2453E-02( 57.7% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 7310414. using 198 PHA bins.
Reduced chi-squared = 38475.87 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 125738.4 using 198 PHA bins.
Reduced chi-squared = 661.7809 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
76917.0 -3 110.6 19.05 0.5864 2.831
0.2266 103.2 18.99 2.789
59582.4 -2 100.8 19.27 2.320 7.830
8.4021E-02 101.3 19.23 7.593
56542.5 -1 101.8 19.33 2.256 9.224
2.3301E-02 102.0 19.35 9.367
54492.5 -1 102.9 19.35 2.218 2.190
1.1448E-02 103.0 19.36 9.492
54237.7 1 103.0 19.36 2.213 1.539
4.6508E-02 103.0 19.36 9.497
52819.5 0 103.2 19.36 2.170 1.506
5.4230E-02 103.3 19.37 9.499
47149.5 0 105.0 19.37 2.020 1.476
6.3950E-02 105.0 19.37 9.500
46426.3 -1 106.7 19.37 2.074 1.533
7.0426E-02 106.7 19.37 9.500
44633.3 -1 107.9 19.37 2.062 1.556
8.9481E-02 108.0 19.37 9.500
42715.1 -1 109.0 19.37 2.040 1.706
5.3112E-02 109.2 19.37 9.500
40634.5 -1 110.0 19.37 2.010 1.970
5.0686E-02 110.2 19.37 9.500
38785.5 -1 110.9 19.37 1.984 3.188
3.0493E-02 111.1 19.37 9.500
37059.7 -1 111.7 19.37 1.957 8.607
296.0 112.0 19.37 9.500
35490.7 -1 112.5 19.37 1.933 9.447
12.28 112.8 19.37 9.500
30925.1 0 113.8 19.37 1.812 9.482
5.351 114.1 19.37 9.500
27894.9 0 115.2 19.37 1.732 9.493
1.173 115.4 19.37 9.500
25867.0 0 116.6 19.37 1.677 9.497
1.7548E-02 116.6 19.37 9.500
24514.6 0 117.8 19.37 1.638 9.499
7.8164E-03 117.6 19.37 9.500
23656.8 0 118.8 19.37 1.610 9.500
1.9993E-03 118.4 19.37 9.500
22716.9 0 120.3 19.37 1.569 9.500
1.1227E-05 119.3 19.37 9.500
22471.1 0 120.9 19.37 1.556 9.500
3.8686E-06 119.5 19.37 9.500
22301.1 0 121.3 19.37 1.545 9.500
1.2421E-07 119.7 19.37 9.500
22190.6 0 121.7 19.37 1.537 9.500
6.5687E-09 119.9 19.37 9.500
22071.2 0 122.1 19.37 1.525 9.500
8.3871E-10 120.1 19.37 9.500
22037.1 0 122.2 19.37 1.521 9.500
3.2951E-10 120.2 19.37 9.500
22015.9 0 122.3 19.37 1.518 9.500
7.3384E-11 120.2 19.37 9.500
21998.6 0 122.4 19.37 1.515 9.500
9.2402E-12 120.3 19.37 9.500
21988.8 0 122.4 19.37 1.514 9.500
1.1938E-12 120.3 19.37 9.500
21980.3 0 122.5 19.37 1.513 9.500
1.8658E-13 120.4 19.37 9.500
Fit parameter 5 has pegged
21881.7 0 122.5 19.37 1.502 9.500
0.000 120.1 19.21 9.500
Fit parameter 5 has pegged
21862.1 0 122.4 19.37 1.498 9.500
0.000 120.0 19.23 9.500
Fit parameter 5 has pegged
21856.0 0 122.4 19.37 1.497 9.500
0.000 119.9 19.25 9.500
Fit parameter 5 has pegged
21853.8 0 122.4 19.37 1.496 9.500
0.000 119.9 19.27 9.500
Fit parameter 5 has pegged
21853.1 0 122.4 19.37 1.496 9.500
0.000 119.8 19.28 9.500
Fit parameter 5 has pegged
21835.8 0 122.5 19.37 1.493 9.500
0.000 119.8 19.28 9.500
Fit parameter 5 has pegged
21820.4 0 122.5 19.37 1.491 9.500
0.000 119.8 19.28 9.500
Fit parameter 5 has pegged
21806.5 0 122.6 19.37 1.489 9.500
0.000 119.8 19.28 9.500
Fit parameter 5 has pegged
21793.8 0 122.7 19.37 1.487 9.500
0.000 119.8 19.28 9.500
Fit parameter 5 has pegged
21782.6 0 122.7 19.37 1.485 9.500
0.000 119.8 19.28 9.500
Fit parameter 5 has pegged
21772.3 0 122.8 19.37 1.483 9.500
0.000 119.8 19.28 9.500
Fit parameter 5 has pegged
21762.9 0 122.8 19.37 1.481 9.500
0.000 119.8 19.28 9.500
Fit parameter 5 has pegged
21754.6 0 122.9 19.37 1.480 9.500
0.000 119.8 19.27 9.500
Fit parameter 5 has pegged
21746.8 0 122.9 19.37 1.478 9.500
0.000 119.8 19.27 9.500
Fit parameter 5 has pegged
21739.7 0 123.0 19.37 1.477 9.500
0.000 119.8 19.27 9.500
Fit parameter 5 has pegged
21733.3 0 123.0 19.37 1.476 9.500
0.000 119.8 19.27 9.500
Fit parameter 5 has pegged
21727.3 0 123.0 19.37 1.474 9.500
0.000 119.9 19.27 9.500
Fit parameter 5 has pegged
21722.1 0 123.1 19.37 1.473 9.500
0.000 119.9 19.27 9.500
Fit parameter 5 has pegged
21717.1 0 123.1 19.37 1.472 9.500
0.000 119.9 19.26 9.500
Fit parameter 5 has pegged
21712.6 0 123.1 19.37 1.471 9.500
0.000 119.9 19.26 9.500
Fit parameter 5 has pegged
21708.3 0 123.2 19.37 1.470 9.500
0.000 119.9 19.26 9.500
Fit parameter 5 has pegged
21704.5 0 123.2 19.37 1.469 9.500
0.000 119.9 19.25 9.500
Fit parameter 5 has pegged
21701.0 0 123.2 19.37 1.469 9.500
0.000 119.9 19.25 9.500
Fit parameter 5 has pegged
21697.7 0 123.3 19.37 1.468 9.500
0.000 119.9 19.25 9.500
Fit parameter 5 has pegged
21694.6 0 123.3 19.37 1.467 9.500
0.000 119.9 19.25 9.500
Fit parameter 5 has pegged
21691.8 0 123.3 19.37 1.466 9.500
0.000 119.9 19.24 9.500
Fit parameter 5 has pegged
21689.2 0 123.4 19.37 1.466 9.500
0.000 119.9 19.24 9.500
Fit parameter 5 has pegged
21686.9 0 123.4 19.37 1.465 9.500
0.000 119.9 19.24 9.500
Fit parameter 5 has pegged
21684.5 0 123.4 19.37 1.464 9.500
0.000 119.9 19.23 9.500
Fit parameter 5 has pegged
21682.5 0 123.4 19.37 1.464 9.500
0.000 119.9 19.23 9.500
Fit parameter 5 has pegged
21680.6 0 123.4 19.37 1.463 9.500
0.000 120.0 19.23 9.500
Fit parameter 5 has pegged
21678.7 0 123.5 19.37 1.463 9.500
0.000 120.0 19.23 9.500
Fit parameter 5 has pegged
21677.1 0 123.5 19.37 1.462 9.500
0.000 120.0 19.22 9.500
Fit parameter 5 has pegged
21675.5 0 123.5 19.37 1.462 9.500
0.000 120.0 19.22 9.500
Fit parameter 5 has pegged
21674.0 0 123.5 19.37 1.461 9.500
0.000 120.0 19.22 9.500
Fit parameter 5 has pegged
21672.7 0 123.5 19.37 1.461 9.500
0.000 120.0 19.22 9.500
Fit parameter 5 has pegged
21671.4 0 123.5 19.37 1.461 9.500
0.000 120.0 19.21 9.500
Fit parameter 5 has pegged
21670.1 0 123.6 19.37 1.460 9.500
0.000 120.0 19.21 9.500
Fit parameter 5 has pegged
21669.1 0 123.6 19.37 1.460 9.500
0.000 120.0 19.21 9.500
Fit parameter 5 has pegged
21668.0 0 123.6 19.37 1.459 9.500
0.000 120.0 19.21 9.500
Fit parameter 5 has pegged
21667.1 0 123.6 19.37 1.459 9.500
0.000 120.0 19.21 9.500
Fit parameter 5 has pegged
21666.1 0 123.6 19.37 1.459 9.500
0.000 120.0 19.20 9.500
Fit parameter 5 has pegged
21665.2 0 123.6 19.37 1.458 9.500
0.000 120.0 19.20 9.500
Fit parameter 5 has pegged
21664.4 0 123.6 19.37 1.458 9.500
0.000 120.0 19.20 9.500
Fit parameter 5 has pegged
21663.7 0 123.6 19.37 1.458 9.500
0.000 120.0 19.19 9.500
Fit parameter 5 has pegged
21662.9 0 123.7 19.37 1.458 9.500
0.000 120.1 19.19 9.500
Fit parameter 5 has pegged
21662.1 0 123.7 19.37 1.457 9.500
0.000 120.1 19.19 9.500
Fit parameter 5 has pegged
21661.6 0 123.7 19.37 1.457 9.500
0.000 120.1 19.19 9.500
Fit parameter 5 has pegged
21661.0 0 123.7 19.37 1.457 9.500
0.000 120.1 19.18 9.500
Fit parameter 5 has pegged
21660.2 0 123.7 19.37 1.457 9.500
0.000 120.1 19.18 9.500
Fit parameter 5 has pegged
21659.9 0 123.7 19.37 1.456 9.500
0.000 120.1 19.18 9.500
Fit parameter 5 has pegged
21659.3 0 123.7 19.37 1.456 9.500
0.000 120.1 19.18 9.500
Fit parameter 5 has pegged
21658.9 0 123.7 19.37 1.456 9.500
0.000 120.1 19.17 9.500
Fit parameter 5 has pegged
21658.3 0 123.7 19.37 1.456 9.500
0.000 120.1 19.17 9.500
Fit parameter 5 has pegged
21657.9 0 123.7 19.37 1.455 9.500
0.000 120.1 19.17 9.500
Fit parameter 5 has pegged
21657.5 0 123.7 19.37 1.455 9.500
0.000 120.1 19.17 9.500
Fit parameter 5 has pegged
21657.2 0 123.7 19.37 1.455 9.500
0.000 120.1 19.17 9.500
Fit parameter 5 has pegged
21656.8 0 123.7 19.37 1.455 9.500
0.000 120.1 19.17 9.500
Fit parameter 5 has pegged
21656.3 0 123.8 19.37 1.455 9.500
0.000 120.1 19.16 9.500
Fit parameter 5 has pegged
21656.0 0 123.8 19.37 1.455 9.500
0.000 120.1 19.16 9.500
Fit parameter 5 has pegged
21655.7 0 123.8 19.37 1.454 9.500
0.000 120.1 19.16 9.500
Fit parameter 5 has pegged
21655.4 0 123.8 19.37 1.454 9.500
0.000 120.1 19.16 9.500
Fit parameter 5 has pegged
21655.2 0 123.8 19.37 1.454 9.500
0.000 120.1 19.16 9.500
Fit parameter 5 has pegged
21654.9 0 123.8 19.37 1.454 9.500
0.000 120.1 19.16 9.500
Fit parameter 5 has pegged
21654.6 0 123.8 19.37 1.454 9.500
0.000 120.1 19.16 9.500
Fit parameter 5 has pegged
21654.4 0 123.8 19.37 1.454 9.500
0.000 120.2 19.15 9.500
Fit parameter 5 has pegged
21654.2 0 123.8 19.37 1.454 9.500
0.000 120.2 19.15 9.500
Fit parameter 5 has pegged
21653.9 0 123.8 19.37 1.453 9.500
0.000 120.2 19.15 9.500
Fit parameter 5 has pegged
21653.7 0 123.8 19.37 1.453 9.500
0.000 120.2 19.15 9.500
Fit parameter 5 has pegged
21653.5 0 123.8 19.37 1.453 9.500
0.000 120.2 19.15 9.500
Fit parameter 5 has pegged
21653.4 0 123.8 19.37 1.453 9.500
0.000 120.2 19.15 9.500
Fit parameter 5 has pegged
21653.3 0 123.8 19.37 1.453 9.500
0.000 120.2 19.15 9.500
Fit parameter 5 has pegged
21653.0 0 123.8 19.37 1.453 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21652.9 0 123.8 19.37 1.453 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21652.7 0 123.8 19.37 1.453 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21652.6 0 123.8 19.37 1.453 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21652.3 0 123.8 19.37 1.452 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21652.3 0 123.8 19.37 1.452 9.500
0.000 120.2 19.14 9.500
21652.0 0 123.8 19.37 1.452 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21651.9 0 123.8 19.37 1.452 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21651.9 0 123.8 19.37 1.452 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21651.6 0 123.8 19.37 1.452 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21651.6 0 123.8 19.37 1.452 9.500
0.000 120.2 19.14 9.500
Fit parameter 5 has pegged
21651.4 0 123.8 19.37 1.452 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21651.4 0 123.8 19.37 1.452 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21651.3 0 123.8 19.37 1.452 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21651.2 0 123.8 19.37 1.452 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21651.2 0 123.8 19.37 1.452 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21651.0 0 123.8 19.37 1.452 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21651.0 0 123.8 19.37 1.452 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21650.9 1 123.8 19.37 1.451 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21650.9 0 123.8 19.37 1.451 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21650.8 0 123.8 19.37 1.451 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21650.8 0 123.8 19.37 1.451 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21650.7 0 123.8 19.37 1.451 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21650.7 0 123.9 19.37 1.451 9.500
0.000 120.2 19.12 9.500
21650.5 0 123.9 19.37 1.451 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21650.5 0 123.9 19.37 1.451 9.500
0.000 120.2 19.13 9.500
21650.2 0 123.9 19.37 1.451 9.500
0.000 120.2 19.13 9.500
Fit parameter 5 has pegged
21650.2 1 123.9 19.37 1.451 9.500
0.000 120.2 19.13 9.500
21650.2 4 123.9 19.37 1.451 9.500
0.000 120.2 19.13 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.94E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.02E-02 | 0.15 0.00 0.01 -0.98 -0.15
1.32E-02 | -0.99 -0.04 0.01 -0.15 -0.04
1.96E+00 | -0.04 1.00 0.00 -0.02 0.09
3.51E-01 | -0.01 -0.09 0.00 -0.15 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 123.861 +/- 0.129475 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.39301 1
3 3 1 gaussian norm 1.45103 +/- 0.543531E-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 120.244 +/- 0.136528 2
7 7 3 gaussian Sigma keV 19.1252 +/- 0.596159 2
8 3 3 gaussian norm 1.45103 = 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 = 21650.25 using 198 PHA bins.
Reduced chi-squared = 113.9487 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 (109.900) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square (109.900) > 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 1.293 photons ( 2.6495E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.241 photons ( 2.4914E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_slow.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_fast.pha
with integration time 7.1170E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 19:18:43 12-Jun-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 3.281 +/- 6.7896E-03
Net count rate (cts/s) for file 2 3.281 +/- 6.7896E-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 = 349946.9 using 168 PHA bins.
Reduced chi-squared = 2187.168 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 23113.87 using 168 PHA bins.
Reduced chi-squared = 144.4617 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2502.90 -3 86.15 12.80 0.1877 0.9317
0.6754 86.66 11.87 0.9256
1043.75 -4 77.76 11.64 0.1926 0.8838
0.5851 80.15 11.06 0.8856
869.919 -5 81.28 9.729 0.1837 0.9327
0.7093 82.05 9.924 0.9315
837.205 -1 80.03 9.861 0.1993 0.9307
0.7120 81.69 12.12 0.9311
740.657 -2 80.05 9.525 0.1949 0.9282
0.7080 81.73 9.899 0.9286
739.476 0 80.03 9.577 0.1960 0.9282
0.7076 81.71 10.48 0.9288
733.675 -1 79.98 9.738 0.2003 0.9286
0.7059 81.65 10.30 0.9292
733.444 -2 79.99 9.762 0.2018 0.9281
0.7037 81.63 10.37 0.9288
733.375 -3 79.98 9.744 0.2013 0.9263
0.6987 81.62 10.35 0.9271
733.363 -4 79.98 9.749 0.2014 0.9257
0.6968 81.62 10.35 0.9264
733.362 -5 79.98 9.746 0.2013 0.9257
0.6966 81.62 10.35 0.9264
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.28E-07 | 0.00 0.00 -0.24 0.63 -0.42 0.00 0.00 0.60
8.20E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.32E-06 | 0.00 0.01 -0.97 -0.14 0.13 0.00 0.05 -0.15
6.99E-04 | 0.03 0.01 -0.01 -0.30 -0.84 0.03 0.36 -0.28
1.10E-03 | -0.01 -0.07 0.05 0.12 0.31 0.00 0.93 0.12
3.78E-02 | 0.83 0.53 0.01 0.01 0.03 -0.16 0.04 0.01
4.88E-02 | -0.39 0.34 0.00 -0.01 -0.03 -0.86 0.03 -0.01
4.28E-02 | -0.41 0.77 0.01 0.01 0.02 0.49 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 79.9763 +/- 0.200551 1
2 2 1 gaussian Sigma keV 9.74595 +/- 0.204491 1
3 3 1 gaussian norm 0.201321 +/- 0.396756E-02 1
4 4 2 powerlaw PhoIndex 0.925674 +/- 0.951922E-02 1
5 5 2 powerlaw norm 0.696603 +/- 0.262351E-01 1
6 6 3 gaussian LineE keV 81.6158 +/- 0.216922 2
7 7 3 gaussian Sigma keV 10.3495 +/- 0.347652E-01 2
8 3 3 gaussian norm 0.201321 = par 3 2
9 8 4 powerlaw PhoIndex 0.926351 +/- 0.914626E-02 2
10 5 4 powerlaw norm 0.696603 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 733.3619 using 168 PHA bins.
Reduced chi-squared = 4.583512 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 ( 4.391) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.391) > 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 1.279 photons ( 1.5466E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.276 photons ( 1.5481E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1170E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
86.91998
=====best line=====
79.9763 0.200541
=====best sigma=====
9.74589 0.204488
=====norm=====
0.201319 0.396768E-02
=====phoindx=====
0.925672 0.952122E-02
=====pow_norm=====
0.696595 0.262366E-01
=====best line=====
81.6157 0.216929
=====best sigma=====
10.3493 0.347688E-01
=====norm=====
0.201319 par
=====phoindx=====
0.926348 0.914803E-02
=====pow_norm=====
0.696595 par
=====redu_chi=====
4.583516
=====area_flux=====
1.279
=====area_flux_f=====
1.276
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 15 1 640 2000 1279.6208 0 0.201319 0.396768E-02 9.74589 0.204488 0.925672 0.952122E-02 0.696595 0.262366E-01 1.279 640 2000 1305.8512 0 0.201319 0.396768E-02 10.3493 0.347688E-01 0.926348 0.914803E-02 0.696595 0.262366E-01 1.276 4.583516 1
=====redu_chi=====
661.7809
=====best line=====
123.861 0.129475
=====best sigma=====
19.3655 1.39301
=====norm=====
1.45103 0.543531E-02
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
120.244 0.136528
=====best sigma=====
19.1252 0.596159
=====norm=====
1.45103 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
113.9487
=====area_flux=====
1.293
=====area_flux_f=====
1.241
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 15 1 1600 3200 1981.776 0 1.45103 0.543531E-02 309.848 22.28816 9.50001 -1.00000 0.00000 -1.00000 1.293 1600 3200 1923.904 0 1.45103 0.543531E-02 306.0032 9.538544 9.50000 -1.00000 0.00000 -1.00000 1.241 113.9487 1
=====redu_chi=====
144.4617
=====best line=====
79.9763 0.200551
=====best sigma=====
9.74595 0.204491
=====norm=====
0.201321 0.396756E-02
=====phoindx=====
0.925674 0.951922E-02
=====pow_norm=====
0.696603 0.262351E-01
=====best line=====
81.6158 0.216922
=====best sigma=====
10.3495 0.347652E-01
=====norm=====
0.201321 par
=====phoindx=====
0.926351 0.914626E-02
=====pow_norm=====
0.696603 par
=====redu_chi=====
4.583512
=====area_flux=====
1.279
=====area_flux_f=====
1.276
=====exp=====
7.1170E+04
=====exp=====
7.1170E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 7.1170E+04 15 1 640 2000 1279.6208 0 0.201321 0.396756E-02 9.74595 0.204491 0.925674 0.951922E-02 0.696603 0.262351E-01 1.279 640 2000 1305.8528 0 0.201321 0.396756E-02 10.3495 0.347652E-01 0.926351 0.914626E-02 0.696603 0.262351E-01 1.276 4.583512 1
rm -rf ae802022010_xspec*.log xspec*.xcm xautosav.xcm ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
rm -rf ae802022010_hxdmkgainhist_tmp
-> hxdmkgainhist_gso successful for ae802022010hxd_1_wel.sff.input_name,f,a,"ae802022010hxd_1_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae802022010hxd_0.hk",,,"HK file name" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" process_id,s,a,"ae802022010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_pin
FFF= ae802022010hxd_1_wel.sff, HK= ae802022010hxd_0.hk TSTART 2.503188713258900E+08, TSOP 2.504067633146750E+08-> hxdmkgainhist_pin successful for ae802022010hxd_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,"ae802022010hxd_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,"2008-06-12",,,"Valid Date (YYYY-MM-DD)for Gain History Files" valid_time,s,a,"19:18:46",,,"Valid Time (hh:mm:ss) for Gain History Files" pin_gainhist_name,f,a,"!ae802022010hxd_1_pin.ghf",,,"HXD pin gainhistory file name" gso_gainhist_name,f,a,"!ae802022010hxd_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 0.022 0.002 0.024 12.50
[ 2] HXDleapsecInit 0.005 0.002 0.007 3.65
[ 3] HXDmkgainhistWriteGHF 0.094 0.010 0.104 54.17
[ 4] HXDmkgainhistWritePHA 0.003 0.002 0.005 2.60
(others) 0.037 0.015 0.052 27.08
--------------------------------------------------------------------------
TOTAL 0.161 0.031 0.192 100.00
-> hxdmkgainhist successful for ae802022010hxd_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,"ae802022010hxd_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: ae802022010hxd_0.hk
2: ae802022010.ehk
HXDpi_init: time duration = 250318871.325890 -- 250406765.315743
Opening GSO calibration files OK
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TEMP_W10_CAL' at hdu=2, col=111 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W11_CAL' at hdu=2, col=112 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W12_CAL' at hdu=2, col=113 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W13_CAL' at hdu=2, col=114 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W20_CAL' at hdu=2, col=115 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W21_CAL' at hdu=2, col=116 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W22_CAL' at hdu=2, col=117 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W23_CAL' at hdu=2, col=118 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W00_CAL' at hdu=2, col=119 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W01_CAL' at hdu=2, col=120 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W02_CAL' at hdu=2, col=121 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W03_CAL' at hdu=2, col=122 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W30_CAL' at hdu=2, col=123 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W31_CAL' at hdu=2, col=124 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W32_CAL' at hdu=2, col=125 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W33_CAL' at hdu=2, col=126 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T10_CAL' at hdu=2, col=127 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T12_CAL' at hdu=2, col=128 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T14_CAL' at hdu=2, col=129 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T21_CAL' at hdu=2, col=130 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T23_CAL' at hdu=2, col=131 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W2_CAL' at hdu=2, col=132 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P1_CAL' at hdu=2, col=133 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T1_CAL' at hdu=2, col=134 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T00_CAL' at hdu=2, col=135 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T02_CAL' at hdu=2, col=136 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T04_CAL' at hdu=2, col=137 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T31_CAL' at hdu=2, col=138 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T33_CAL' at hdu=2, col=139 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W0_CAL' at hdu=2, col=140 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P0_CAL' at hdu=2, col=141 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T3_CAL' at hdu=2, col=142 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP4_CAL' at hdu=2, col=143 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP3_CAL' at hdu=2, col=144 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY4_CAL' at hdu=2, col=145 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY3_CAL' at hdu=2, col=146 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM3_CAL' at hdu=2, col=147 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM4_CAL' at hdu=2, col=148 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR3_CAL' at hdu=2, col=149 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CENTER_CAL' at hdu=2, col=150 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP2_CAL' at hdu=2, col=151 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP1_CAL' at hdu=2, col=152 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY2_CAL' at hdu=2, col=153 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY1_CAL' at hdu=2, col=154 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM1_CAL' at hdu=2, col=155 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM2_CAL' at hdu=2, col=156 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR1_CAL' at hdu=2, col=157 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR2_CAL' at hdu=2, col=158 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'T_SAA_HXD' at hdu=2, col=29 in 'ae802022010.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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 10214194
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 10214193/10214194
[ 2] HXDrndInit version 0.2.0
| OK: 10214193/10214193
[ 3] HXDgethkInit version 0.1.0
| OK: 10214193/10214193
[ 4] HXDpiFITS version 2.1.3
| OK: 10214193/10214193
[ 5] HXDpi version 2.1.3
| OK: 10214193/10214193
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 10214193/10214193
GET: 10214193
*** 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 10214193 0 SINGLE
HXD:WEL:EV_TIME 8 8 10214193 10214193 SINGLE
HXD:WEL:MTI 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 10214193 10214193 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_RESERV 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 10214193 10214193 SINGLE
HXD:WEL:DET_TYPE 4 4 10214193 10214193 SINGLE
HXD:WEL:PI_FAST 4 4 20428386 10214193 SINGLE
HXD:WEL:PI_SLOW 4 4 20428386 10214193 SINGLE
HXD:WEL:PI_PIN 16 16 20428386 10214193 SINGLE
HXD:WEL:UPI_FAST 8 8 20428386 10214193 SINGLE
HXD:WEL:UPI_SLOW 8 8 20428386 10214193 SINGLE
HXD:WEL:UPI_PIN 32 32 20428386 10214193 SINGLE
HXD:WEL:PIN_ID 4 4 10214193 10214193 SINGLE
HXD:WEL:UNITID 4 4 10214193 10214193 SINGLE
HXD:WEL:LENGTH_CHK 4 4 10214193 10214193 SINGLE
HXD:WEL:WELTIME 4 4 10214193 10214193 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 10214193 10214193 SINGLE
HXD:WEL:TRIG 4 4 10214193 10214193 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 10214193 10214193 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 10214193 10214193 SINGLE
HXD:WEL:PHA_FAST 4 4 10214193 10214193 SINGLE
HXD:WEL:PHA_SLOW 4 4 10214193 10214193 SINGLE
HXD:WEL:PHA_PIN 16 16 10214193 10214193 SINGLE
HXD:WEL:PACKET_AETIME 8 8 10214193 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 10214193 20427765 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 10214193 10214193 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 10214193 20428386 SINGLE
HXD:WEL:EVENT 204 204 20428386 20428386 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 23644 10213572 SINGLE
HXDpi:EHKDATA 136 136 23644 10213572 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 294.842 17.038 311.880 37.23
[ 2] HXDrndInit 4.227 7.164 11.391 1.36
[ 3] HXDgethkInit 3.007 6.468 9.475 1.13
[ 4] HXDpiFITS 9.761 12.405 22.166 2.65
[ 5] HXDpi 89.961 7.563 97.524 11.64
[ 6] HXD2ndeventFitsWrite 295.541 89.713 385.255 45.99
(others) 0.028 0.010 0.038 0.00
--------------------------------------------------------------------------
TOTAL 697.367 140.362 837.729 100.00
-> hxdpi successful for ae802022010hxd_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,"ae802022010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 10214194
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 10214193/10214194
[ 2] HXDleapsecInit version 2.0.1
| OK: 10214193/10214193
[ 3] HXDgradeFITS version 2.0.4
| OK: 10214193/10214193
[ 4] HXDgrade version 2.0.3
| OK: 10214193/10214193
[ 5] HXD2ndeventFitsWrite version 2.0.4
| OK: 10214193/10214193
GET: 10214193
*** 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 10214193 0 SINGLE
HXD:WEL:EV_TIME 8 8 10214193 10214193 SINGLE
HXD:WEL:MTI 4 4 10214193 10214193 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 20428386 10214193 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 20428386 10214193 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 20428386 10214193 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 20428386 10214193 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 20428386 10214193 SINGLE
HXD:WEL:GRADE_RESERV 4 4 20428386 10214193 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 20428386 10214193 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 20428386 10214193 SINGLE
HXD:WEL:DET_TYPE 4 4 20428386 10214193 SINGLE
HXD:WEL:PI_FAST 4 4 10214193 10214193 SINGLE
HXD:WEL:PI_SLOW 4 4 10214193 10214193 SINGLE
HXD:WEL:PI_PIN 16 16 10214193 10214193 SINGLE
HXD:WEL:UPI_FAST 8 8 10214193 10214193 SINGLE
HXD:WEL:UPI_SLOW 8 8 10214193 10214193 SINGLE
HXD:WEL:UPI_PIN 32 32 10214193 10214193 SINGLE
HXD:WEL:PIN_ID 4 4 20428386 10214193 SINGLE
HXD:WEL:UNITID 4 4 10214193 10214193 SINGLE
HXD:WEL:LENGTH_CHK 4 4 10214193 10214193 SINGLE
HXD:WEL:WELTIME 4 4 10214193 10214193 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 10214193 10214193 SINGLE
HXD:WEL:TRIG 4 4 10214193 10214193 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 10214193 10214193 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 10214193 10214193 SINGLE
HXD:WEL:PHA_FAST 4 4 10214193 10214193 SINGLE
HXD:WEL:PHA_SLOW 4 4 10214193 10214193 SINGLE
HXD:WEL:PHA_PIN 16 16 10214193 10214193 SINGLE
HXD:WEL:PACKET_AETIME 8 8 10214193 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 10214193 10214193 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 10214193 10214193 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 10214193 10214193 SINGLE
HXD:WEL:EVENT 204 204 10214193 10214193 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 229.504 10.612 240.117 40.79
[ 2] HXDleapsecInit 2.919 6.409 9.328 1.58
[ 3] HXDgradeFITS 2.152 5.672 7.824 1.33
[ 4] HXDgrade 23.086 5.646 28.733 4.88
[ 5] HXD2ndeventFitsWrite 235.810 66.810 302.620 51.41
(others) 0.018 0.010 0.028 0.00
--------------------------------------------------------------------------
TOTAL 493.489 95.160 588.649 100.00
-> hxdgrade successful for ae802022010hxd_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,"ae802022010hxd_2_wel.fff",,,"HXD event fits file name ?" tim_filename,f,a,"ae802022010.tim",,,"input .tim FITS file name (HXDtimeSet)" leapfile,f,a,"CALDB",,,"leapsec file name" hklist_name,f,a,"ae802022010hxd_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 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae802022010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7089482
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 7089481/7089482
[ 2] HXDleapsecInit version 2.0.1
| OK: 7089481/7089481
[ 3] HXDgethkInit version 0.1.0
| OK: 7089481/7089481
[ 4] HXDfwelTimeFITS version 0.3.8
| OK: 7089481/7089481
[ 5] HXDfwelTime version 2.0.0
| OK: 7089481/7089481
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 7089481/7089481
GET: 7089481
*** 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 7089481 0 SINGLE
HXD:WEL:EV_TIME 8 8 14178962 7089481 SINGLE
HXD:WEL:MTI 4 4 14178962 7089481 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 7089481 7089481 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_RESERV 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 7089481 7089481 SINGLE
HXD:WEL:DET_TYPE 4 4 7089481 7089481 SINGLE
HXD:WEL:PI_FAST 4 4 7089481 7089481 SINGLE
HXD:WEL:PI_SLOW 4 4 7089481 7089481 SINGLE
HXD:WEL:PI_PIN 16 16 7089481 7089481 SINGLE
HXD:WEL:UPI_FAST 8 8 7089481 7089481 SINGLE
HXD:WEL:UPI_SLOW 8 8 7089481 7089481 SINGLE
HXD:WEL:UPI_PIN 32 32 7089481 7089481 SINGLE
HXD:WEL:PIN_ID 4 4 7089481 7089481 SINGLE
HXD:WEL:UNITID 4 4 7089481 14178962 SINGLE
HXD:WEL:LENGTH_CHK 4 4 7089481 7089481 SINGLE
HXD:WEL:WELTIME 4 4 7089481 14178962 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 7089481 7089481 SINGLE
HXD:WEL:TRIG 4 4 7089481 7089481 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 7089481 7089481 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 7089481 7089481 SINGLE
HXD:WEL:PHA_FAST 4 4 7089481 7089481 SINGLE
HXD:WEL:PHA_SLOW 4 4 7089481 7089481 SINGLE
HXD:WEL:PHA_PIN 16 16 7089481 7089481 SINGLE
HXD:WEL:PACKET_AETIME 8 8 7089481 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 7089481 21268443 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 7089481 14178962 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 7104861 21268443 SINGLE
HXD:WEL:EVENT 204 204 14178962 7089481 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 7690 7690 SINGLE
HXDfwelTime:HXD_AE_TM_LATCH_TM 4 4 7690 7690 SINGLE
HXDfwelTime:HXD_WPU_CLK_RATE 4 4 7690 7089482 SINGLE
HXDfwelTime:HXD_SYS_TIME 8 8 7690 0 SINGLE
HXDfwelTime:HXD_HK_TIME 8 8 7690 0 SINGLE
HXDfwelTime:PWH 64 0 0 0 SINGLE
HXDfwelTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfwelTime:TIME_INVALID 4 4 7089481 0 SINGLE
HXDfwelTime:EV_TIME_TLM 8 8 7089481 0 SINGLE
HXDfwelTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 175.950 9.374 185.324 40.64
[ 2] HXDleapsecInit 2.380 4.147 6.527 1.43
[ 3] HXDgethkInit 1.958 3.903 5.861 1.29
[ 4] HXDfwelTimeFITS 3.971 7.429 11.400 2.50
[ 5] HXDfwelTime 44.566 4.227 48.794 10.70
[ 6] HXD2ndeventFitsWrite 170.795 27.227 198.022 43.43
(others) 0.023 0.016 0.039 0.01
--------------------------------------------------------------------------
TOTAL 399.643 56.323 455.967 100.00
-> hxdtime successful for ae802022010hxd_2_wel.sff.input_name,f,a,"ae802022010hxd_2_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae802022010hxd_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,"ae802022010",,,"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 = ae802022010hxd_2_wel.sff, HK = ae802022010hxd_0.hk
rm -rf ae802022010_hxdmkgainhist_tmp; mkdir ae802022010_hxdmkgainhist_tmp
maketime infile="ae802022010hxd_0.hk+1" outfile="ae802022010_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 = ae802022010_hxdmkgainhist_tmp/total.gti
fdump infile="ae802022010_hxdmkgainhist_tmp/total.gti" outfile="ae802022010_hxdmkgainhist_tmp/fdump.log" columns='START,STOP' rows=- prhead=no pagewidth=100 showrow=no
fdump log = ae802022010_hxdmkgainhist_tmp/fdump.log
GTI LIST = ae802022010_hxdmkgainhist_tmp/gtilist
Exposure = 1000000
Making Non-selection fits file now.
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff" expr="(UNITID=="0")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff" expr="(UNITID=="1")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff" expr="(UNITID=="2")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff" expr="(UNITID=="3")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff" expr="(UNITID=="4")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff" expr="(UNITID=="5")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff" expr="(UNITID=="6")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff" expr="(UNITID=="7")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff" expr="(UNITID=="8")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff" expr="(UNITID=="9")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff" expr="(UNITID=="10")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff" expr="(UNITID=="11")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff" expr="(UNITID=="12")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff" expr="(UNITID=="13")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff" expr="(UNITID=="14")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff" expr="(UNITID=="15")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
Making Hit Pattern 8 fits file now.
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff" expr="(UNITID==0) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0111000000000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b11100000000000000011) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff" expr="(UNITID==1) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1011100100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b01110000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff" expr="(UNITID==2) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1101100110001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff" expr="(UNITID==3) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1110000000001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000111) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff" expr="(UNITID==4) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110011100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00111000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff" expr="(UNITID==5) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000101100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00011111000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff" expr="(UNITID==6) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000110111000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000011100000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff" expr="(UNITID==7) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110111011000100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff" expr="(UNITID==8) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0010001101110110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff" expr="(UNITID==9) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000001110110000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000001110000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff" expr="(UNITID==10) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011010000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000111110000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff" expr="(UNITID==11) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011100110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000111000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff" expr="(UNITID==12) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000000000111) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000001110) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff" expr="(UNITID==13) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000110011011) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff" expr="(UNITID==14) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000010011101) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000011100000) == (b00000000000000000000)))"
fselect infile="ae802022010hxd_2_wel.sff" outfile="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff
10% completed
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Total Good Bad: Region Time Phase Grade Cut
317997 317666 0 331 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
317997 317666 0 331 0 0 0
in 61106. seconds
Spectrum has 317666 counts for 5.199 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0.fff
10% completed
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Total Good Bad: Region Time Phase Grade Cut
317997 317666 0 331 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
317997 317666 0 331 0 0 0
in 61106. seconds
Spectrum has 317666 counts for 5.199 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff
10% completed
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Total Good Bad: Region Time Phase Grade Cut
131784 131646 0 138 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
131784 131646 0 138 0 0 0
in 61106. seconds
Spectrum has 131646 counts for 2.154 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
131784 131646 0 138 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
131784 131646 0 138 0 0 0
in 61106. seconds
Spectrum has 131646 counts for 2.154 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
326047 325731 0 316 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
326047 325731 0 316 0 0 0
in 61106. seconds
Spectrum has 325731 counts for 5.331 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1.fff
10% completed
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Total Good Bad: Region Time Phase Grade Cut
326047 325731 0 316 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
326047 325731 0 316 0 0 0
in 61106. seconds
Spectrum has 325731 counts for 5.331 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
142843 142691 0 152 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
142843 142691 0 152 0 0 0
in 61106. seconds
Spectrum has 142691 counts for 2.335 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
142843 142691 0 152 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
142843 142691 0 152 0 0 0
in 61106. seconds
Spectrum has 142691 counts for 2.335 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
454023 453221 0 802 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
454023 453221 0 802 0 0 0
in 61106. seconds
Spectrum has 453221 counts for 7.417 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
454023 453221 0 802 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
454023 453221 0 802 0 0 0
in 61106. seconds
Spectrum has 453221 counts for 7.417 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
200382 199989 0 393 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
200382 199989 0 393 0 0 0
in 61106. seconds
Spectrum has 199989 counts for 3.273 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
200382 199989 0 393 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
200382 199989 0 393 0 0 0
in 61106. seconds
Spectrum has 199989 counts for 3.273 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
328292 328030 0 262 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
328292 328030 0 262 0 0 0
in 61106. seconds
Spectrum has 328030 counts for 5.368 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
328292 328030 0 262 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
328292 328030 0 262 0 0 0
in 61106. seconds
Spectrum has 328030 counts for 5.368 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
135270 135163 0 107 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
135270 135163 0 107 0 0 0
in 61106. seconds
Spectrum has 135163 counts for 2.212 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
135270 135163 0 107 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
135270 135163 0 107 0 0 0
in 61106. seconds
Spectrum has 135163 counts for 2.212 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
314148 313876 0 272 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
314148 313876 0 272 0 0 0
in 61106. seconds
Spectrum has 313876 counts for 5.137 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
314148 313876 0 272 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
314148 313876 0 272 0 0 0
in 61106. seconds
Spectrum has 313876 counts for 5.137 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
127855 127740 0 115 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
127855 127740 0 115 0 0 0
in 61106. seconds
Spectrum has 127740 counts for 2.090 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
127855 127740 0 115 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
127855 127740 0 115 0 0 0
in 61106. seconds
Spectrum has 127740 counts for 2.090 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
321310 321029 0 281 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
321310 321029 0 281 0 0 0
in 61106. seconds
Spectrum has 321029 counts for 5.254 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
321310 321029 0 281 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
321310 321029 0 281 0 0 0
in 61106. seconds
Spectrum has 321029 counts for 5.254 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
131851 131729 0 122 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
131851 131729 0 122 0 0 0
in 61106. seconds
Spectrum has 131729 counts for 2.156 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
131851 131729 0 122 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
131851 131729 0 122 0 0 0
in 61106. seconds
Spectrum has 131729 counts for 2.156 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
322938 322623 0 315 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
322938 322623 0 315 0 0 0
in 61106. seconds
Spectrum has 322623 counts for 5.280 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
322938 322623 0 315 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
322938 322623 0 315 0 0 0
in 61106. seconds
Spectrum has 322623 counts for 5.280 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
130993 130855 0 138 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
130993 130855 0 138 0 0 0
in 61106. seconds
Spectrum has 130855 counts for 2.141 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
130993 130855 0 138 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
130993 130855 0 138 0 0 0
in 61106. seconds
Spectrum has 130855 counts for 2.141 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
554940 553915 0 1025 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
554940 553915 0 1025 0 0 0
in 61106. seconds
Spectrum has 553915 counts for 9.065 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
554940 553915 0 1025 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
554940 553915 0 1025 0 0 0
in 61106. seconds
Spectrum has 553915 counts for 9.065 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
223754 223296 0 458 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
223754 223296 0 458 0 0 0
in 61106. seconds
Spectrum has 223296 counts for 3.654 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
223754 223296 0 458 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
223754 223296 0 458 0 0 0
in 61106. seconds
Spectrum has 223296 counts for 3.654 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
492633 491725 0 908 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
492633 491725 0 908 0 0 0
in 61106. seconds
Spectrum has 491725 counts for 8.047 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
492633 491725 0 908 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
492633 491725 0 908 0 0 0
in 61106. seconds
Spectrum has 491725 counts for 8.047 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
205249 204845 0 404 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
205249 204845 0 404 0 0 0
in 61106. seconds
Spectrum has 204845 counts for 3.352 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
205249 204845 0 404 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
205249 204845 0 404 0 0 0
in 61106. seconds
Spectrum has 204845 counts for 3.352 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
309259 308971 0 288 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
309259 308971 0 288 0 0 0
in 61106. seconds
Spectrum has 308971 counts for 5.056 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
309259 308971 0 288 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
309259 308971 0 288 0 0 0
in 61106. seconds
Spectrum has 308971 counts for 5.056 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
127768 127646 0 122 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
127768 127646 0 122 0 0 0
in 61106. seconds
Spectrum has 127646 counts for 2.089 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
127768 127646 0 122 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
127768 127646 0 122 0 0 0
in 61106. seconds
Spectrum has 127646 counts for 2.089 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
319936 319665 0 271 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
319936 319665 0 271 0 0 0
in 61106. seconds
Spectrum has 319665 counts for 5.231 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
319936 319665 0 271 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
319936 319665 0 271 0 0 0
in 61106. seconds
Spectrum has 319665 counts for 5.231 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
130124 129998 0 126 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
130124 129998 0 126 0 0 0
in 61106. seconds
Spectrum has 129998 counts for 2.127 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
130124 129998 0 126 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
130124 129998 0 126 0 0 0
in 61106. seconds
Spectrum has 129998 counts for 2.127 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
369868 369583 0 285 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
369868 369583 0 285 0 0 0
in 61106. seconds
Spectrum has 369583 counts for 6.048 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
369868 369583 0 285 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
369868 369583 0 285 0 0 0
in 61106. seconds
Spectrum has 369583 counts for 6.048 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
146663 146527 0 136 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
146663 146527 0 136 0 0 0
in 61106. seconds
Spectrum has 146527 counts for 2.398 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
146663 146527 0 136 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
146663 146527 0 136 0 0 0
in 61106. seconds
Spectrum has 146527 counts for 2.398 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
327829 327530 0 299 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
327829 327530 0 299 0 0 0
in 61106. seconds
Spectrum has 327530 counts for 5.360 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
327829 327530 0 299 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
327829 327530 0 299 0 0 0
in 61106. seconds
Spectrum has 327530 counts for 5.360 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
133769 133636 0 133 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
133769 133636 0 133 0 0 0
in 61106. seconds
Spectrum has 133636 counts for 2.187 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
133769 133636 0 133 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
133769 133636 0 133 0 0 0
in 61106. seconds
Spectrum has 133636 counts for 2.187 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
459477 458673 0 804 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
459477 458673 0 804 0 0 0
in 61106. seconds
Spectrum has 458673 counts for 7.506 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
459477 458673 0 804 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
459477 458673 0 804 0 0 0
in 61106. seconds
Spectrum has 458673 counts for 7.506 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
200416 200011 0 405 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
200416 200011 0 405 0 0 0
in 61106. seconds
Spectrum has 200011 counts for 3.273 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
200416 200011 0 405 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
200416 200011 0 405 0 0 0
in 61106. seconds
Spectrum has 200011 counts for 3.273 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
328991 328698 0 293 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
328991 328698 0 293 0 0 0
in 61106. seconds
Spectrum has 328698 counts for 5.379 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
328991 328698 0 293 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
328991 328698 0 293 0 0 0
in 61106. seconds
Spectrum has 328698 counts for 5.379 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
131713 131597 0 116 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
131713 131597 0 116 0 0 0
in 61106. seconds
Spectrum has 131597 counts for 2.154 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
131713 131597 0 116 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
131713 131597 0 116 0 0 0
in 61106. seconds
Spectrum has 131597 counts for 2.154 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
312629 312351 0 278 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
312629 312351 0 278 0 0 0
in 61106. seconds
Spectrum has 312351 counts for 5.112 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
312629 312351 0 278 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
312629 312351 0 278 0 0 0
in 61106. seconds
Spectrum has 312351 counts for 5.112 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_hitpat8_slow.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
129475 129360 0 115 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
129475 129360 0 115 0 0 0
in 61106. seconds
Spectrum has 129360 counts for 2.117 counts/sec
... written the PHA data Extension
extractor filename="ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_hitpat8_fast.pha" timefile="ae802022010_hxdmkgainhist_tmp/ae802022010_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: ae802022010_hxdmkgainhist_tmp/tmp_ae802022010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
129475 129360 0 115 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
129475 129360 0 115 0 0 0
in 61106. seconds
Spectrum has 129360 counts for 2.117 counts/sec
... written the PHA data Extension
rbnpha infile="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_hitpat8_slow.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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="ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_gti_0_hitpat8_fast.pha" outfile="ae802022010_hxdmkgainhist_tmp/ae802022010_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 20:20:45 12-Jun-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 2.154 +/- 5.9377E-03
Net count rate (cts/s) for file 2 2.154 +/- 5.9377E-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 = 726290.9 using 168 PHA bins.
Reduced chi-squared = 4539.318 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11922.76 using 168 PHA bins.
Reduced chi-squared = 74.51726 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4405.96 -3 81.65 16.01 0.1345 1.030
0.5131 82.27 15.59 1.022
1830.47 -4 73.14 6.439 6.4808E-02 0.8857
0.4165 75.11 7.395 0.8920
1811.85 -5 75.88 15.21 0.1240 1.032
0.6157 78.36 17.51 1.029
1021.00 0 76.02 9.802 0.1396 1.026
0.6278 76.79 7.205 1.026
504.430 -1 76.44 9.316 0.1299 1.023
0.6458 77.36 9.421 1.024
486.908 0 76.44 9.346 0.1302 1.023
0.6465 77.64 9.873 1.024
484.362 0 76.44 9.370 0.1308 1.023
0.6469 77.78 10.51 1.024
479.288 -1 76.42 9.487 0.1332 1.025
0.6511 77.87 10.31 1.027
465.867 -2 76.49 9.529 0.1347 1.041
0.6933 77.97 10.39 1.043
456.423 -2 76.56 9.535 0.1351 1.054
0.7306 78.04 10.39 1.055
453.087 -3 76.71 9.597 0.1368 1.088
0.8347 78.23 10.45 1.089
441.545 -4 76.78 9.621 0.1374 1.100
0.8877 78.30 10.47 1.102
440.700 -5 76.79 9.624 0.1375 1.100
0.8917 78.31 10.47 1.102
440.699 -6 76.79 9.624 0.1375 1.100
0.8917 78.31 10.47 1.102
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.18E-06 | 0.00 0.00 -0.44 0.61 -0.32 0.00 0.00 0.58
1.60E-06 | 0.00 0.00 -0.02 -0.70 0.00 0.00 0.00 0.72
6.15E-06 | 0.00 0.01 -0.90 -0.28 0.17 0.00 0.03 -0.29
1.61E-03 | 0.02 -0.05 0.02 -0.09 -0.36 0.03 0.92 -0.08
2.14E-03 | -0.04 -0.05 0.02 0.24 0.86 -0.03 0.38 0.23
5.61E-02 | 0.73 0.68 0.01 0.01 0.04 -0.04 0.04 0.01
8.24E-02 | 0.37 -0.36 0.00 0.01 0.04 0.85 -0.04 0.01
6.64E-02 | 0.57 -0.64 0.00 -0.01 -0.01 -0.52 -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 76.7868 +/- 0.250875 1
2 2 1 gaussian Sigma keV 9.62355 +/- 0.251913 1
3 3 1 gaussian norm 0.137497 +/- 0.333097E-02 1
4 4 2 powerlaw PhoIndex 1.10033 +/- 0.127294E-01 1
5 5 2 powerlaw norm 0.891722 +/- 0.451458E-01 1
6 6 3 gaussian LineE keV 78.3062 +/- 0.279096 2
7 7 3 gaussian Sigma keV 10.4660 +/- 0.441141E-01 2
8 3 3 gaussian norm 0.137497 = par 3 2
9 8 4 powerlaw PhoIndex 1.10219 +/- 0.122343E-01 2
10 5 4 powerlaw norm 0.891722 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 440.6986 using 168 PHA bins.
Reduced chi-squared = 2.754366 for 160 degrees of freedom
Null hypothesis probability = 4.455E-28
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 ( 2.639) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.639) > 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 0.7940 photons ( 9.4016E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.7889 photons ( 9.3730E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:45 12-Jun-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 5.199 +/- 9.2236E-03
Net count rate (cts/s) for file 2 5.199 +/- 9.2236E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.044 +/- 1.0970E-02( 58.6% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.044 +/- 1.0970E-02( 58.6% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 7418082. using 198 PHA bins.
Reduced chi-squared = 39042.54 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 58775.36 using 198 PHA bins.
Reduced chi-squared = 309.3440 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
30168.9 -3 121.5 19.35 0.3134 2.797
0.1851 115.4 19.34 2.734
11936.9 -2 110.3 19.36 0.9817 6.758
1.9088E-02 114.6 19.36 9.402
11560.5 -1 112.5 19.36 0.9983 9.203
2.6990E-03 114.4 19.36 9.474
11437.4 -1 113.5 19.37 1.002 9.449
2.2059E-05 114.3 19.36 9.496
11371.7 -1 113.9 19.37 1.003 9.483
1.0418E-05 114.3 19.37 9.498
11329.8 -1 114.2 19.37 1.003 9.498
3.9696E-06 114.3 19.37 9.499
11300.9 -1 114.3 19.37 1.002 9.499
6.1274E-07 114.3 19.37 9.500
11252.7 -1 114.4 19.37 0.9997 9.500
1.8872E-07 114.3 19.37 9.500
11238.0 -1 114.4 19.37 0.9993 9.500
8.3121E-08 114.3 19.37 9.500
11208.0 -1 114.5 19.37 0.9979 9.500
3.0818E-08 114.4 19.37 9.500
11091.1 -1 114.6 19.37 0.9917 3.071
1.3057E-09 114.5 19.37 9.500
10936.1 -2 114.8 19.37 0.9788 9.258
2.9077E-10 114.1 19.37 9.500
10890.9 -1 115.0 19.37 0.9793 1.636
8.4135E-11 114.3 19.37 9.500
10591.4 -1 115.4 19.37 0.9600 5.947
3.2105E-11 114.5 19.37 9.500
10395.3 -1 115.7 19.37 0.9472 8.106
8.8187E-12 114.8 19.37 9.500
10313.3 -1 115.9 19.37 0.9428 9.246
1.0052E-12 115.0 19.37 9.500
10040.9 0 116.5 19.37 0.9227 9.474
3.4320E-13 115.4 19.37 9.500
Fit parameter 5 has pegged
9755.95 0 117.4 19.37 0.8965 9.530
0.000 116.1 19.37 9.500
Fit parameter 5 has pegged
9684.80 0 117.7 19.37 0.8877 9.530
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
9638.20 0 117.9 19.37 0.8816 9.530
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
9607.23 0 118.1 19.37 0.8772 9.530
0.000 116.6 19.37 9.500
Fit parameter 5 has pegged
9586.02 0 118.3 19.37 0.8738 9.530
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
9571.46 0 118.4 19.37 0.8714 9.530
0.000 116.7 19.37 9.500
Fit parameter 5 has pegged
9561.16 0 118.4 19.37 0.8696 9.530
0.000 116.8 19.37 9.500
Fit parameter 5 has pegged
9554.16 0 118.5 19.37 0.8682 9.530
0.000 116.8 19.36 9.500
Fit parameter 5 has pegged
9549.04 0 118.6 19.37 0.8672 9.530
0.000 116.8 19.35 9.500
Fit parameter 5 has pegged
9544.56 0 118.6 19.37 0.8663 9.530
0.000 116.9 19.33 9.500
Fit parameter 5 has pegged
9541.84 0 118.6 19.37 0.8657 9.530
0.000 116.9 19.34 9.500
Fit parameter 5 has pegged
9540.01 0 118.6 19.37 0.8653 9.530
0.000 116.9 19.32 9.500
Fit parameter 5 has pegged
9537.77 0 118.7 19.37 0.8648 9.530
0.000 116.9 19.31 9.500
Fit parameter 5 has pegged
9536.54 0 118.7 19.37 0.8645 9.530
0.000 117.0 19.32 9.500
Fit parameter 5 has pegged
9534.96 0 118.7 19.37 0.8641 9.530
0.000 117.0 19.32 9.500
Fit parameter 5 has pegged
9534.56 0 118.7 19.37 0.8640 9.530
0.000 117.0 19.31 9.500
Fit parameter 5 has pegged
9533.54 0 118.7 19.37 0.8637 9.530
0.000 117.0 19.30 9.500
Fit parameter 5 has pegged
9532.95 0 118.7 19.37 0.8636 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9532.46 0 118.7 19.37 0.8635 9.530
0.000 117.0 19.30 9.500
Fit parameter 5 has pegged
9531.47 0 118.7 19.37 0.8632 9.530
0.000 117.0 19.30 9.500
Fit parameter 5 has pegged
9531.29 0 118.7 19.37 0.8632 9.530
0.000 117.0 19.30 9.500
Fit parameter 5 has pegged
9530.78 0 118.7 19.37 0.8630 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9526.16 0 118.8 19.37 0.8621 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9521.94 0 118.8 19.37 0.8612 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9518.16 0 118.9 19.37 0.8604 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9514.72 0 118.9 19.37 0.8596 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9511.60 0 119.0 19.37 0.8589 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9508.76 0 119.0 19.37 0.8582 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9506.14 0 119.1 19.37 0.8575 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9503.80 0 119.1 19.37 0.8569 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9501.64 0 119.1 19.37 0.8563 9.530
0.000 117.0 19.29 9.500
Fit parameter 5 has pegged
9499.68 0 119.2 19.37 0.8558 9.530
0.000 117.0 19.28 9.500
Fit parameter 5 has pegged
9497.84 0 119.2 19.37 0.8552 9.530
0.000 117.0 19.28 9.500
Fit parameter 5 has pegged
9496.21 0 119.2 19.37 0.8547 9.530
0.000 117.1 19.28 9.500
Fit parameter 5 has pegged
9494.68 0 119.3 19.37 0.8543 9.530
0.000 117.1 19.28 9.500
Fit parameter 5 has pegged
9493.31 0 119.3 19.37 0.8538 9.530
0.000 117.1 19.27 9.500
Fit parameter 5 has pegged
9492.03 0 119.3 19.37 0.8534 9.530
0.000 117.1 19.27 9.500
Fit parameter 5 has pegged
9490.86 0 119.3 19.37 0.8530 9.530
0.000 117.1 19.27 9.500
Fit parameter 5 has pegged
9489.76 0 119.4 19.37 0.8526 9.530
0.000 117.1 19.27 9.500
Fit parameter 5 has pegged
9488.77 0 119.4 19.37 0.8522 9.530
0.000 117.1 19.26 9.500
Fit parameter 5 has pegged
9487.81 0 119.4 19.37 0.8518 9.530
0.000 117.1 19.26 9.500
Fit parameter 5 has pegged
9486.91 0 119.4 19.37 0.8515 9.530
0.000 117.1 19.26 9.500
Fit parameter 5 has pegged
9486.17 0 119.5 19.37 0.8512 9.530
0.000 117.1 19.26 9.500
Fit parameter 5 has pegged
9485.42 0 119.5 19.37 0.8509 9.530
0.000 117.1 19.25 9.500
Fit parameter 5 has pegged
9484.76 0 119.5 19.37 0.8506 9.530
0.000 117.1 19.25 9.500
Fit parameter 5 has pegged
9484.08 0 119.5 19.37 0.8503 9.530
0.000 117.1 19.25 9.500
Fit parameter 5 has pegged
9483.52 0 119.5 19.37 0.8500 9.530
0.000 117.1 19.24 9.500
Fit parameter 5 has pegged
9482.96 0 119.5 19.37 0.8497 9.530
0.000 117.2 19.24 9.500
Fit parameter 5 has pegged
9482.45 0 119.6 19.37 0.8495 9.530
0.000 117.2 19.24 9.500
Fit parameter 5 has pegged
9481.89 0 119.6 19.37 0.8492 9.530
0.000 117.2 19.23 9.500
Fit parameter 5 has pegged
9481.47 0 119.6 19.37 0.8490 9.530
0.000 117.2 19.23 9.500
Fit parameter 5 has pegged
9481.01 0 119.6 19.37 0.8488 9.530
0.000 117.2 19.23 9.500
Fit parameter 5 has pegged
9480.64 0 119.6 19.37 0.8486 9.530
0.000 117.2 19.23 9.500
Fit parameter 5 has pegged
9480.25 0 119.6 19.37 0.8483 9.530
0.000 117.2 19.22 9.500
Fit parameter 5 has pegged
9479.93 0 119.6 19.37 0.8481 9.530
0.000 117.2 19.22 9.500
Fit parameter 5 has pegged
9479.60 0 119.6 19.37 0.8479 9.530
0.000 117.2 19.22 9.500
Fit parameter 5 has pegged
9479.24 0 119.6 19.37 0.8478 9.530
0.000 117.2 19.22 9.500
Fit parameter 5 has pegged
9478.98 0 119.6 19.37 0.8476 9.530
0.000 117.2 19.21 9.500
Fit parameter 5 has pegged
9478.66 0 119.7 19.37 0.8474 9.530
0.000 117.2 19.21 9.500
Fit parameter 5 has pegged
9478.46 0 119.7 19.37 0.8472 9.530
0.000 117.2 19.21 9.500
Fit parameter 5 has pegged
9478.21 0 119.7 19.37 0.8471 9.530
0.000 117.2 19.21 9.500
Fit parameter 5 has pegged
9477.98 0 119.7 19.37 0.8469 9.530
0.000 117.2 19.20 9.500
Fit parameter 5 has pegged
9477.72 0 119.7 19.37 0.8468 9.530
0.000 117.2 19.20 9.500
Fit parameter 5 has pegged
9477.52 0 119.7 19.37 0.8466 9.530
0.000 117.3 19.20 9.500
Fit parameter 5 has pegged
9477.36 0 119.7 19.37 0.8465 9.530
0.000 117.3 19.20 9.500
Fit parameter 5 has pegged
9477.14 0 119.7 19.37 0.8464 9.530
0.000 117.3 19.20 9.500
Fit parameter 5 has pegged
9476.96 0 119.7 19.37 0.8462 9.530
0.000 117.3 19.19 9.500
Fit parameter 5 has pegged
9476.83 0 119.7 19.37 0.8461 9.530
0.000 117.3 19.19 9.500
Fit parameter 5 has pegged
9476.69 0 119.7 19.37 0.8460 9.530
0.000 117.3 19.19 9.500
Fit parameter 5 has pegged
9476.52 0 119.7 19.37 0.8459 9.530
0.000 117.3 19.19 9.500
Fit parameter 5 has pegged
9476.38 0 119.7 19.37 0.8458 9.530
0.000 117.3 19.18 9.500
Fit parameter 5 has pegged
9476.24 0 119.7 19.37 0.8456 9.530
0.000 117.3 19.18 9.500
Fit parameter 5 has pegged
9476.09 0 119.7 19.37 0.8455 9.530
0.000 117.3 19.18 9.500
Fit parameter 5 has pegged
9475.95 0 119.7 19.37 0.8454 9.530
0.000 117.3 19.18 9.500
Fit parameter 5 has pegged
9475.82 0 119.7 19.37 0.8453 9.530
0.000 117.3 19.18 9.500
Fit parameter 5 has pegged
9475.73 0 119.8 19.37 0.8452 9.530
0.000 117.3 19.18 9.500
Fit parameter 5 has pegged
9475.64 0 119.8 19.37 0.8451 9.530
0.000 117.3 19.17 9.500
Fit parameter 5 has pegged
9475.56 0 119.8 19.37 0.8451 9.530
0.000 117.3 19.17 9.500
Fit parameter 5 has pegged
9475.46 0 119.8 19.37 0.8450 9.530
0.000 117.3 19.17 9.500
Fit parameter 5 has pegged
9475.38 0 119.8 19.37 0.8449 9.530
0.000 117.3 19.17 9.500
Fit parameter 5 has pegged
9475.24 0 119.8 19.37 0.8448 9.530
0.000 117.3 19.17 9.500
Fit parameter 5 has pegged
9475.19 0 119.8 19.37 0.8447 9.530
0.000 117.3 19.16 9.500
Fit parameter 5 has pegged
9475.11 0 119.8 19.37 0.8446 9.530
0.000 117.3 19.16 9.500
Fit parameter 5 has pegged
9475.03 0 119.8 19.37 0.8446 9.530
0.000 117.3 19.16 9.500
Fit parameter 5 has pegged
9474.93 0 119.8 19.37 0.8445 9.530
0.000 117.4 19.16 9.500
Fit parameter 5 has pegged
9474.85 0 119.8 19.37 0.8444 9.530
0.000 117.4 19.16 9.500
Fit parameter 5 has pegged
9474.82 0 119.8 19.37 0.8444 9.530
0.000 117.4 19.16 9.500
Fit parameter 5 has pegged
9474.78 0 119.8 19.37 0.8443 9.530
0.000 117.4 19.16 9.500
Fit parameter 5 has pegged
9474.72 0 119.8 19.37 0.8442 9.530
0.000 117.4 19.16 9.500
Fit parameter 5 has pegged
9474.64 0 119.8 19.37 0.8442 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.61 0 119.8 19.37 0.8441 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.55 0 119.8 19.37 0.8440 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.49 0 119.8 19.37 0.8440 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.47 0 119.8 19.37 0.8439 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.39 0 119.8 19.37 0.8439 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.38 0 119.8 19.37 0.8438 9.530
0.000 117.4 19.15 9.500
9474.30 0 119.8 19.37 0.8438 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.24 0 119.8 19.37 0.8437 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.19 0 119.8 19.37 0.8437 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.16 0 119.8 19.37 0.8436 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.14 0 119.8 19.37 0.8436 9.530
0.000 117.4 19.15 9.500
Fit parameter 5 has pegged
9474.10 0 119.8 19.37 0.8435 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9474.08 0 119.8 19.37 0.8435 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9474.04 0 119.8 19.37 0.8435 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9474.02 0 119.8 19.37 0.8434 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9474.00 0 119.8 19.37 0.8434 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9473.97 0 119.8 19.37 0.8433 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9473.95 0 119.8 19.37 0.8433 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9473.93 0 119.8 19.37 0.8433 9.530
0.000 117.4 19.13 9.500
Fit parameter 5 has pegged
9473.93 1 119.8 19.37 0.8433 9.530
0.000 117.4 19.13 9.500
9473.88 0 119.8 19.37 0.8432 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9473.87 0 119.8 19.37 0.8432 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9473.86 0 119.8 19.37 0.8432 9.530
0.000 117.4 19.14 9.500
Fit parameter 5 has pegged
9473.81 0 119.8 19.37 0.8431 9.530
0.000 117.4 19.13 9.500
Fit parameter 5 has pegged
9473.78 0 119.8 19.37 0.8431 9.530
0.000 117.4 19.13 9.500
Fit parameter 5 has pegged
9473.78 4 119.8 19.37 0.8431 9.530
0.000 117.4 19.13 9.500
9473.78 5 119.8 19.37 0.8431 9.530
0.000 117.4 19.13 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.36E-05 | -0.01 0.00 -1.00 -0.01 0.00
2.22E-02 | 0.29 0.01 0.00 -0.95 -0.14
2.76E-02 | -0.96 -0.06 0.01 -0.28 -0.06
3.97E+00 | -0.06 0.99 0.00 -0.03 0.13
8.54E-01 | -0.01 -0.13 0.00 -0.14 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 119.827 +/- 0.200996 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.97537 1
3 3 1 gaussian norm 0.843103 +/- 0.489671E-02 1
4 4 2 powerlaw PhoIndex 9.52965 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 117.432 +/- 0.208033 2
7 7 3 gaussian Sigma keV 19.1336 +/- 0.942587 2
8 3 3 gaussian norm 0.843103 = 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 = 9473.780 using 198 PHA bins.
Reduced chi-squared = 49.86200 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 ( 48.090) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 48.090) > 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 0.7141 photons ( 1.4327E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.6903 photons ( 1.3669E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:45 12-Jun-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 2.154 +/- 5.9377E-03
Net count rate (cts/s) for file 2 2.154 +/- 5.9377E-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 = 822774.2 using 168 PHA bins.
Reduced chi-squared = 5142.339 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17529.01 using 168 PHA bins.
Reduced chi-squared = 109.5563 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
13356.8 -3 85.01 13.73 0.1071 1.135
0.6200 85.42 12.90 1.121
2804.60 -4 70.81 14.19 0.1386 0.9978
0.6659 73.81 13.38 1.007
1669.20 -3 82.26 8.995 9.0646E-02 1.133
0.9781 81.35 9.387 1.128
1386.48 -4 75.51 17.05 0.1372 1.121
0.9727 77.66 16.06 1.123
554.619 0 76.87 8.325 0.1429 1.122
0.9659 78.06 9.810 1.124
540.549 -1 76.73 9.613 0.1396 1.120
0.9681 78.32 13.00 1.122
449.800 -2 76.91 9.444 0.1337 1.115
0.9542 78.62 9.852 1.117
447.421 0 76.89 9.480 0.1342 1.115
0.9536 78.54 10.68 1.117
442.312 -1 76.85 9.638 0.1374 1.115
0.9497 78.41 10.44 1.117
441.643 -2 76.84 9.657 0.1383 1.112
0.9369 78.37 10.50 1.114
440.810 -3 76.81 9.628 0.1377 1.103
0.9039 78.33 10.47 1.106
440.707 -4 76.79 9.625 0.1375 1.100
0.8923 78.31 10.47 1.102
440.699 -5 76.79 9.623 0.1375 1.100
0.8917 78.31 10.47 1.102
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.18E-06 | 0.00 0.00 -0.44 0.61 -0.32 0.00 0.00 0.58
1.60E-06 | 0.00 0.00 -0.02 -0.70 0.00 0.00 0.00 0.72
6.15E-06 | 0.00 0.01 -0.90 -0.28 0.17 0.00 0.03 -0.29
1.61E-03 | 0.02 -0.05 0.02 -0.09 -0.36 0.03 0.92 -0.08
2.14E-03 | -0.04 -0.05 0.02 0.24 0.86 -0.03 0.38 0.23
5.61E-02 | 0.73 0.68 0.01 0.01 0.04 -0.04 0.04 0.01
8.24E-02 | 0.37 -0.36 0.00 0.01 0.04 0.85 -0.04 0.01
6.64E-02 | 0.57 -0.64 0.00 -0.01 -0.01 -0.52 -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 76.7870 +/- 0.250909 1
2 2 1 gaussian Sigma keV 9.62314 +/- 0.251951 1
3 3 1 gaussian norm 0.137493 +/- 0.333153E-02 1
4 4 2 powerlaw PhoIndex 1.10033 +/- 0.127265E-01 1
5 5 2 powerlaw norm 0.891726 +/- 0.451665E-01 1
6 6 3 gaussian LineE keV 78.3063 +/- 0.279078 2
7 7 3 gaussian Sigma keV 10.4657 +/- 0.441152E-01 2
8 3 3 gaussian norm 0.137493 = par 3 2
9 8 4 powerlaw PhoIndex 1.10219 +/- 0.122320E-01 2
10 5 4 powerlaw norm 0.891726 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 440.6989 using 168 PHA bins.
Reduced chi-squared = 2.754368 for 160 degrees of freedom
Null hypothesis probability = 4.454E-28
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 ( 2.639) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.639) > 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 0.7940 photons ( 9.4018E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.7889 photons ( 9.3730E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
74.51726
=====best line=====
76.7868 0.250875
=====best sigma=====
9.62355 0.251913
=====norm=====
0.137497 0.333097E-02
=====phoindx=====
1.10033 0.127294E-01
=====pow_norm=====
0.891722 0.451458E-01
=====best line=====
78.3062 0.279096
=====best sigma=====
10.4660 0.441141E-01
=====norm=====
0.137497 par
=====phoindx=====
1.10219 0.122343E-01
=====pow_norm=====
0.891722 par
=====redu_chi=====
2.754366
=====area_flux=====
0.7940
=====area_flux_f=====
0.7889
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 0 1 640 2000 1228.5888 0 0.137497 0.333097E-02 9.62355 0.251913 1.10033 0.127294E-01 0.891722 0.451458E-01 0.7940 640 2000 1252.8992 0 0.137497 0.333097E-02 10.4660 0.441141E-01 1.10219 0.122343E-01 0.891722 0.451458E-01 0.7889 2.754366 0
=====redu_chi=====
309.3440
=====best line=====
119.827 0.200996
=====best sigma=====
19.3655 1.97537
=====norm=====
0.843103 0.489671E-02
=====phoindx=====
9.52965 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
117.432 0.208033
=====best sigma=====
19.1336 0.942587
=====norm=====
0.843103 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
49.86200
=====area_flux=====
0.7141
=====area_flux_f=====
0.6903
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 0 1 1600 3200 1917.232 0 0.843103 0.489671E-02 309.848 31.60592 9.52965 -1.00000 0.00000 -1.00000 0.7141 1600 3200 1878.912 0 0.843103 0.489671E-02 306.1376 15.081392 9.50000 -1.00000 0.00000 -1.00000 0.6903 49.86200 1
=====redu_chi=====
109.5563
=====best line=====
76.7870 0.250909
=====best sigma=====
9.62314 0.251951
=====norm=====
0.137493 0.333153E-02
=====phoindx=====
1.10033 0.127265E-01
=====pow_norm=====
0.891726 0.451665E-01
=====best line=====
78.3063 0.279078
=====best sigma=====
10.4657 0.441152E-01
=====norm=====
0.137493 par
=====phoindx=====
1.10219 0.122320E-01
=====pow_norm=====
0.891726 par
=====redu_chi=====
2.754368
=====area_flux=====
0.7940
=====area_flux_f=====
0.7889
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 0 1 640 2000 1228.592 0 0.137493 0.333153E-02 9.62314 0.251951 1.10033 0.127265E-01 0.891726 0.451665E-01 0.7940 640 2000 1252.9008 0 0.137493 0.333153E-02 10.4657 0.441152E-01 1.10219 0.122320E-01 0.891726 0.451665E-01 0.7889 2.754368 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:46 12-Jun-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 2.335 +/- 6.1818E-03
Net count rate (cts/s) for file 2 2.335 +/- 6.1818E-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 = 679067.0 using 168 PHA bins.
Reduced chi-squared = 4244.169 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 9517.142 using 168 PHA bins.
Reduced chi-squared = 59.48214 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1520.69 -3 82.80 15.47 0.1291 0.9185
0.4039 83.56 14.71 0.9150
1440.75 -4 75.05 7.170 5.4821E-02 0.8216
0.3018 77.93 8.021 0.8251
1007.02 -1 78.05 9.907 0.1051 0.8309
0.2999 80.84 14.24 0.8327
639.700 -2 77.61 7.912 0.1066 0.8599
0.3343 77.91 8.713 0.8595
552.283 -1 77.55 9.166 0.1191 0.8635
0.3375 79.64 10.96 0.8648
480.479 -2 77.72 9.074 0.1207 0.8918
0.3761 79.87 9.900 0.8919
446.785 -2 77.79 9.235 0.1238 0.9138
0.4125 80.07 9.844 0.9142
425.848 -2 77.89 9.224 0.1243 0.9310
0.4447 80.17 9.860 0.9317
412.879 -2 77.95 9.258 0.1251 0.9447
0.4719 80.24 9.882 0.9455
411.329 -3 78.12 9.351 0.1274 0.9842
0.5488 80.43 9.980 0.9841
392.999 -4 78.20 9.373 0.1281 0.9981
0.5894 80.50 9.978 0.9989
391.631 -5 78.21 9.378 0.1282 0.9981
0.5925 80.51 9.978 0.9995
391.629 -6 78.21 9.377 0.1282 0.9980
0.5924 80.51 9.978 0.9995
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.01E-06 | 0.00 0.00 -0.39 0.58 -0.46 0.00 0.00 0.55
1.54E-06 | 0.00 0.00 -0.02 -0.70 0.00 0.00 0.00 0.72
5.59E-06 | 0.00 0.01 -0.92 -0.23 0.21 0.00 0.01 -0.24
1.03E-03 | 0.03 0.02 -0.02 -0.36 -0.86 0.03 0.05 -0.35
1.08E-02 | 0.00 -0.17 0.01 0.02 0.03 0.04 0.98 0.02
6.14E-02 | 0.81 0.57 0.00 0.01 0.03 -0.10 0.10 0.01
7.99E-02 | -0.40 0.42 0.00 -0.01 -0.02 -0.81 0.10 -0.01
6.91E-02 | -0.43 0.69 0.00 0.01 0.02 0.58 0.10 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 78.2061 +/- 0.256447 1
2 2 1 gaussian Sigma keV 9.37734 +/- 0.258433 1
3 3 1 gaussian norm 0.128177 +/- 0.322036E-02 1
4 4 2 powerlaw PhoIndex 0.998030 +/- 0.126203E-01 1
5 5 2 powerlaw norm 0.592434 +/- 0.296894E-01 1
6 6 3 gaussian LineE keV 80.5079 +/- 0.275535 2
7 7 3 gaussian Sigma keV 9.97772 +/- 0.112320 2
8 3 3 gaussian norm 0.128177 = par 3 2
9 8 4 powerlaw PhoIndex 0.999529 +/- 0.121317E-01 2
10 5 4 powerlaw norm 0.592434 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 391.6292 using 168 PHA bins.
Reduced chi-squared = 2.447683 for 160 degrees of freedom
Null hypothesis probability = 1.927E-21
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 ( 2.345) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.345) > 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 0.8017 photons ( 9.6006E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.7974 photons ( 9.5958E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:46 12-Jun-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 5.331 +/- 9.3400E-03
Net count rate (cts/s) for file 2 5.331 +/- 9.3400E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 2.995 +/- 1.1200E-02( 56.2% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 2.995 +/- 1.1200E-02( 56.2% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 6716824. using 198 PHA bins.
Reduced chi-squared = 35351.71 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 56292.91 using 198 PHA bins.
Reduced chi-squared = 296.2785 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
29862.8 -3 117.0 19.32 0.3253 2.841
0.2002 111.6 19.29 2.771
16264.9 -2 109.3 19.34 1.130 6.625
3.6174E-02 111.8 19.33 6.539
15034.9 -1 110.5 19.36 1.096 9.332
1.6729E-02 112.2 19.35 8.389
14357.6 -1 111.4 19.36 1.082 9.438
5.4581E-03 112.7 19.36 9.210
13973.1 -1 112.1 19.36 1.076 9.494
9.4433E-04 113.2 19.37 9.398
13496.5 -1 112.7 19.37 1.064 9.498
4.4056E-04 113.6 19.37 9.495
13096.4 -1 113.2 19.37 1.054 9.499
4.5677E-05 114.0 19.37 9.499
12820.3 -1 113.6 19.37 1.048 9.500
1.8991E-05 114.4 19.37 9.500
12641.4 -1 113.9 19.37 1.044 9.500
5.1123E-06 114.6 19.37 9.500
12453.2 -1 114.1 19.37 1.039 9.500
1.5100E-06 114.8 19.37 9.500
12352.0 -1 114.3 19.37 1.037 9.500
6.1477E-07 114.9 19.37 9.500
12256.5 -1 114.4 19.37 1.035 9.500
1.4754E-07 115.1 19.37 9.500
12080.2 -1 114.6 19.37 1.029 9.500
3.1537E-08 115.2 19.37 9.500
11736.5 -1 114.9 19.37 1.017 1.234
3.0706E-10 115.5 19.37 9.500
11057.2 -2 115.0 19.37 0.9773 8.206
0.2482 115.5 19.37 9.500
10635.4 -1 115.9 19.37 0.9644 9.203
5.7282E-02 116.0 19.37 9.500
9994.41 0 116.8 19.37 0.9329 9.445
1.3481E-04 116.7 19.37 9.500
9590.35 0 117.6 19.37 0.9128 9.495
2.0719E-05 117.4 19.37 9.500
9326.64 0 118.3 19.37 0.8982 9.500
3.3926E-06 118.0 19.37 9.500
9160.23 0 118.9 19.37 0.8876 9.500
1.1486E-06 118.5 19.37 9.500
9050.60 0 119.3 19.37 0.8791 9.500
8.8777E-09 118.8 19.37 9.500
8979.58 0 119.7 19.37 0.8727 9.500
4.3575E-09 119.1 19.37 9.500
8902.41 0 120.1 19.37 0.8636 9.500
7.9774E-10 119.5 19.37 9.500
8881.22 0 120.2 19.37 0.8603 9.500
1.5445E-10 119.6 19.37 9.500
8866.80 0 120.3 19.37 0.8578 9.500
7.4050E-11 119.7 19.37 9.500
8857.61 0 120.4 19.37 0.8562 9.500
3.3739E-11 119.8 19.37 9.500
8851.31 0 120.5 19.37 0.8550 9.500
1.3460E-11 119.8 19.37 9.500
8846.27 0 120.5 19.37 0.8539 9.500
3.3130E-12 119.8 19.37 9.500
8842.14 0 120.6 19.37 0.8530 9.500
7.7781E-13 119.9 19.37 9.500
8840.10 0 120.6 19.37 0.8526 9.500
1.4309E-13 119.9 19.37 9.500
Fit parameter 5 has pegged
8821.75 0 120.5 19.37 0.8474 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8818.58 0 120.5 19.37 0.8456 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8813.10 0 120.5 19.37 0.8443 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8808.29 0 120.6 19.37 0.8432 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8803.99 0 120.6 19.37 0.8421 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8800.12 0 120.7 19.37 0.8411 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8796.64 0 120.7 19.37 0.8401 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8793.41 0 120.8 19.37 0.8393 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8790.62 0 120.8 19.37 0.8384 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8788.08 0 120.8 19.37 0.8377 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8785.74 0 120.9 19.37 0.8370 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8783.67 0 120.9 19.37 0.8363 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8781.77 0 120.9 19.37 0.8357 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8780.09 0 121.0 19.37 0.8351 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8778.55 0 121.0 19.37 0.8346 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8777.10 0 121.0 19.37 0.8341 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8775.84 0 121.1 19.37 0.8336 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8774.66 0 121.1 19.37 0.8332 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8773.62 0 121.1 19.37 0.8328 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8772.67 0 121.1 19.37 0.8324 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8771.78 0 121.1 19.37 0.8320 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8770.97 0 121.2 19.37 0.8317 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8770.24 0 121.2 19.37 0.8313 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
8769.53 0 121.2 19.37 0.8310 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8768.96 0 121.2 19.37 0.8307 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8768.34 0 121.2 19.37 0.8305 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8767.80 0 121.2 19.37 0.8302 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8767.35 0 121.3 19.37 0.8300 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8766.94 0 121.3 19.37 0.8297 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8766.53 0 121.3 19.37 0.8295 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8766.21 0 121.3 19.37 0.8293 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8765.84 0 121.3 19.37 0.8291 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8765.53 0 121.3 19.37 0.8289 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8765.23 0 121.3 19.37 0.8288 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8764.95 0 121.3 19.37 0.8286 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8764.71 0 121.4 19.37 0.8285 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8764.48 0 121.4 19.37 0.8283 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8764.29 0 121.4 19.37 0.8282 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8764.11 0 121.4 19.37 0.8281 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8763.93 0 121.4 19.37 0.8279 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8763.71 0 121.4 19.37 0.8278 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8763.59 0 121.4 19.37 0.8277 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8763.46 0 121.4 19.37 0.8276 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8763.34 0 121.4 19.37 0.8275 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8763.22 0 121.4 19.37 0.8274 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8763.09 0 121.4 19.37 0.8273 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8763.02 0 121.4 19.37 0.8272 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.88 0 121.4 19.37 0.8272 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.80 0 121.4 19.37 0.8271 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.72 0 121.4 19.37 0.8270 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.63 0 121.4 19.37 0.8269 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.55 0 121.4 19.37 0.8269 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.50 0 121.5 19.37 0.8268 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.44 0 121.5 19.37 0.8268 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.39 0 121.5 19.37 0.8267 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.32 0 121.5 19.37 0.8267 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.26 0 121.5 19.37 0.8266 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.21 0 121.5 19.37 0.8266 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.18 0 121.5 19.37 0.8265 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.10 0 121.5 19.37 0.8265 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.08 0 121.5 19.37 0.8265 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8762.08 1 121.5 19.37 0.8264 9.500
0.000 119.7 19.37 9.500
8761.95 0 121.5 19.37 0.8264 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8761.91 0 121.5 19.37 0.8264 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
8761.91 1 121.5 19.37 0.8264 9.500
0.000 119.7 19.37 9.500
8761.81 0 121.5 19.37 0.8263 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.79 0 121.5 19.37 0.8263 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.76 0 121.5 19.37 0.8262 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.73 0 121.5 19.37 0.8262 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.72 1 121.5 19.37 0.8262 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.71 0 121.5 19.37 0.8262 9.500
0.000 119.8 19.37 9.500
8761.64 0 121.5 19.37 0.8262 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.63 0 121.5 19.37 0.8261 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.60 0 121.5 19.37 0.8261 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.58 0 121.5 19.37 0.8261 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.56 0 121.5 19.37 0.8260 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.54 1 121.5 19.37 0.8260 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.52 1 121.5 19.37 0.8260 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
8761.51 3 121.5 19.37 0.8260 9.500
0.000 119.8 19.37 9.500
8761.51 4 121.5 19.37 0.8260 9.500
0.000 119.8 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.35E-05 | 0.00 0.00 -1.00 -0.01 0.00
2.39E-02 | 0.28 0.01 0.00 -0.96 -0.07
2.86E-02 | -0.96 -0.05 0.01 -0.27 -0.03
4.54E+00 | -0.05 0.87 0.00 -0.04 0.49
2.89E+00 | 0.02 -0.49 0.00 -0.06 0.87
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 121.514 +/- 0.196997 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.03313 1
3 3 1 gaussian norm 0.825970 +/- 0.467468E-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 119.758 +/- 0.205224 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.80791 2
8 3 3 gaussian norm 0.825970 = 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 = 8761.508 using 198 PHA bins.
Reduced chi-squared = 46.11320 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 ( 44.475) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 44.475) > 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 0.7158 photons ( 1.4487E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.6988 photons ( 1.4017E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:46 12-Jun-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 2.335 +/- 6.1818E-03
Net count rate (cts/s) for file 2 2.335 +/- 6.1818E-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 = 763435.8 using 168 PHA bins.
Reduced chi-squared = 4771.474 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 14809.29 using 168 PHA bins.
Reduced chi-squared = 92.55808 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3566.19 -3 85.49 13.34 0.1117 1.002
0.4972 85.99 12.08 0.9934
826.991 -4 74.08 11.77 0.1177 0.9157
0.4304 77.79 10.59 0.9197
634.309 -3 80.61 9.711 0.1154 0.9934
0.5619 81.05 9.921 0.9920
399.809 -4 77.89 9.845 0.1291 0.9993
0.5928 80.45 10.30 1.000
392.844 -5 78.31 9.169 0.1264 0.9969
0.5913 80.52 9.974 0.9985
391.733 -6 78.18 9.446 0.1287 0.9984
0.5929 80.50 9.987 0.9999
391.646 -7 78.22 9.353 0.1280 0.9979
0.5922 80.51 9.979 0.9994
391.630 -8 78.20 9.385 0.1282 0.9981
0.5925 80.51 9.979 0.9996
391.629 -9 78.21 9.375 0.1282 0.9980
0.5924 80.51 9.978 0.9995
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.01E-06 | 0.00 0.00 -0.39 0.58 -0.46 0.00 0.00 0.55
1.54E-06 | 0.00 0.00 -0.02 -0.70 0.00 0.00 0.00 0.72
5.59E-06 | 0.00 0.01 -0.92 -0.23 0.21 0.00 0.01 -0.24
1.03E-03 | 0.03 0.02 -0.02 -0.36 -0.86 0.03 0.05 -0.35
1.04E-02 | 0.00 -0.17 0.01 0.02 0.04 0.04 0.98 0.02
6.15E-02 | 0.81 0.57 0.00 0.01 0.03 -0.10 0.10 0.01
7.99E-02 | -0.41 0.42 0.00 -0.01 -0.02 -0.80 0.10 -0.01
6.91E-02 | -0.43 0.68 0.00 0.01 0.02 0.59 0.09 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 78.2072 +/- 0.256643 1
2 2 1 gaussian Sigma keV 9.37477 +/- 0.258659 1
3 3 1 gaussian norm 0.128155 +/- 0.322260E-02 1
4 4 2 powerlaw PhoIndex 0.998011 +/- 0.126212E-01 1
5 5 2 powerlaw norm 0.592408 +/- 0.296911E-01 1
6 6 3 gaussian LineE keV 80.5081 +/- 0.275473 2
7 7 3 gaussian Sigma keV 9.97774 +/- 0.109848 2
8 3 3 gaussian norm 0.128155 = par 3 2
9 8 4 powerlaw PhoIndex 0.999511 +/- 0.121327E-01 2
10 5 4 powerlaw norm 0.592408 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 391.6295 using 168 PHA bins.
Reduced chi-squared = 2.447684 for 160 degrees of freedom
Null hypothesis probability = 1.927E-21
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 ( 2.345) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.345) > 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 0.8017 photons ( 9.6006E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.7974 photons ( 9.5958E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
59.48214
=====best line=====
78.2061 0.256447
=====best sigma=====
9.37734 0.258433
=====norm=====
0.128177 0.322036E-02
=====phoindx=====
0.998030 0.126203E-01
=====pow_norm=====
0.592434 0.296894E-01
=====best line=====
80.5079 0.275535
=====best sigma=====
9.97772 0.112320
=====norm=====
0.128177 par
=====phoindx=====
0.999529 0.121317E-01
=====pow_norm=====
0.592434 par
=====redu_chi=====
2.447683
=====area_flux=====
0.8017
=====area_flux_f=====
0.7974
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 1 1 640 2000 1251.2976 0 0.128177 0.322036E-02 9.37734 0.258433 0.998030 0.126203E-01 0.592434 0.296894E-01 0.8017 640 2000 1288.1264 0 0.128177 0.322036E-02 9.97772 0.112320 0.999529 0.121317E-01 0.592434 0.296894E-01 0.7974 2.447683 0
=====redu_chi=====
296.2785
=====best line=====
121.514 0.196997
=====best sigma=====
19.3655 2.03313
=====norm=====
0.825970 0.467468E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.758 0.205224
=====best sigma=====
19.3655 1.80791
=====norm=====
0.825970 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
46.11320
=====area_flux=====
0.7158
=====area_flux_f=====
0.6988
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 1 1 1600 3200 1944.224 0 0.825970 0.467468E-02 309.848 32.53008 9.50000 -1.00000 0.00000 -1.00000 0.7158 1600 3200 1916.128 0 0.825970 0.467468E-02 309.848 28.92656 9.50000 -1.00000 0.00000 -1.00000 0.6988 46.11320 1
=====redu_chi=====
92.55808
=====best line=====
78.2072 0.256643
=====best sigma=====
9.37477 0.258659
=====norm=====
0.128155 0.322260E-02
=====phoindx=====
0.998011 0.126212E-01
=====pow_norm=====
0.592408 0.296911E-01
=====best line=====
80.5081 0.275473
=====best sigma=====
9.97774 0.109848
=====norm=====
0.128155 par
=====phoindx=====
0.999511 0.121327E-01
=====pow_norm=====
0.592408 par
=====redu_chi=====
2.447684
=====area_flux=====
0.8017
=====area_flux_f=====
0.7974
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 1 1 640 2000 1251.3152 0 0.128155 0.322260E-02 9.37477 0.258659 0.998011 0.126212E-01 0.592408 0.296911E-01 0.8017 640 2000 1288.1296 0 0.128155 0.322260E-02 9.97774 0.109848 0.999511 0.121327E-01 0.592408 0.296911E-01 0.7974 2.447684 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:47 12-Jun-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 3.273 +/- 7.3184E-03
Net count rate (cts/s) for file 2 3.273 +/- 7.3184E-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 = 293704.9 using 168 PHA bins.
Reduced chi-squared = 1835.656 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17818.03 using 168 PHA bins.
Reduced chi-squared = 111.3627 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7642.51 -3 82.25 16.66 0.2608 1.053
0.8376 82.75 16.46 1.045
865.436 -3 73.96 8.755 0.1816 0.8802
0.5933 75.36 9.140 0.8885
834.203 -2 75.12 9.651 0.2024 0.9082
0.6365 76.56 13.02 0.9098
778.245 -3 75.72 9.103 0.1925 0.9752
0.8190 77.49 9.724 0.9742
675.011 -4 75.62 9.703 0.2068 0.9958
0.9155 77.17 12.24 0.9968
578.368 -5 75.81 9.285 0.1978 0.9956
0.9314 77.45 9.886 0.9974
576.039 0 75.77 9.356 0.1991 0.9957
0.9311 77.35 9.978 0.9975
574.569 -1 75.71 9.529 0.2036 0.9960
0.9290 77.23 10.37 0.9981
573.190 -2 75.73 9.535 0.2046 0.9959
0.9278 77.23 10.19 0.9980
573.164 -3 75.72 9.544 0.2049 0.9954
0.9255 77.21 10.22 0.9975
573.163 -3 75.72 9.539 0.2048 0.9952
0.9249 77.22 10.21 0.9973
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.09E-07 | 0.00 0.00 -0.25 0.67 -0.33 0.00 0.00 0.61
9.75E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.74
8.78E-06 | 0.00 0.01 -0.97 -0.16 0.10 0.00 0.04 -0.17
1.29E-03 | 0.04 -0.01 0.00 -0.23 -0.88 0.05 0.35 -0.22
1.54E-03 | -0.01 -0.07 0.04 0.09 0.32 0.00 0.93 0.09
3.99E-02 | 0.71 0.70 0.01 0.01 0.04 -0.02 0.05 0.01
5.72E-02 | 0.43 -0.41 -0.01 0.01 0.04 0.80 -0.05 0.01
4.62E-02 | 0.56 -0.58 -0.01 0.00 -0.01 -0.60 -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 75.7232 +/- 0.211998 1
2 2 1 gaussian Sigma keV 9.53924 +/- 0.211438 1
3 3 1 gaussian norm 0.204784 +/- 0.415976E-02 1
4 4 2 powerlaw PhoIndex 0.995223 +/- 0.976063E-02 1
5 5 2 powerlaw norm 0.924909 +/- 0.363357E-01 1
6 6 3 gaussian LineE keV 77.2158 +/- 0.230610 2
7 7 3 gaussian Sigma keV 10.2064 +/- 0.417476E-01 2
8 3 3 gaussian norm 0.204784 = par 3 2
9 8 4 powerlaw PhoIndex 0.997310 +/- 0.937473E-02 2
10 5 4 powerlaw norm 0.924909 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 573.1634 using 168 PHA bins.
Reduced chi-squared = 3.582271 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 ( 3.432) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.432) > 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 1.269 photons ( 1.5119E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.260 photons ( 1.5054E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:47 12-Jun-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 7.417 +/- 1.1017E-02
Net count rate (cts/s) for file 2 7.417 +/- 1.1017E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.144 +/- 1.3226E-02( 55.9% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.144 +/- 1.3226E-02( 55.9% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 9496650. using 198 PHA bins.
Reduced chi-squared = 49982.37 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 65363.71 using 198 PHA bins.
Reduced chi-squared = 344.0196 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
35661.6 -3 115.3 19.25 0.3951 2.728
0.1195 106.9 19.28 2.666
30318.5 -2 111.2 19.33 1.197 6.568
2.8831E-02 121.3 19.34 8.517
12534.1 -2 113.9 19.35 1.126 9.491
1.0247E-02 115.8 19.36 9.487
11206.4 -3 113.8 19.36 1.160 0.9966
3.5125E-03 113.8 19.36 3.253
11188.1 0 114.2 19.36 1.145 1.266
2.7675E-05 113.0 16.22 7.287
10411.6 -1 113.7 19.36 1.199 8.362
1.0225E-05 112.5 18.32 9.275
10279.2 0 113.9 19.37 1.168 9.126
4.6551E-06 112.8 18.58 9.428
10263.8 0 114.1 19.37 1.152 9.380
1.0529E-06 113.0 18.69 9.476
10237.3 0 114.2 19.37 1.149 9.455
2.5667E-07 112.9 18.65 9.489
10217.9 0 114.2 19.37 1.147 9.486
3.5306E-09 112.9 18.61 9.495
10202.9 0 114.2 19.37 1.145 9.497
1.4048E-09 112.9 18.58 9.499
10191.1 0 114.3 19.37 1.143 9.499
3.1956E-10 112.8 18.56 9.500
10181.6 0 114.3 19.37 1.141 9.500
4.9809E-11 112.8 18.54 9.500
10158.8 0 114.4 19.37 1.136 9.500
2.9354E-12 112.8 18.47 9.500
10153.3 0 114.4 19.37 1.135 9.500
7.0407E-13 112.8 18.45 9.500
10148.9 0 114.4 19.37 1.133 9.500
1.4995E-13 112.8 18.43 9.500
10145.0 0 114.4 19.37 1.132 9.500
1.2192E-14 112.8 18.41 9.500
Fit parameter 5 has pegged
10121.3 0 114.5 19.37 1.123 9.500
0.000 112.9 18.25 9.500
Fit parameter 5 has pegged
10095.6 -1 114.7 19.37 1.106 9.500
0.000 113.5 17.93 9.500
Fit parameter 5 has pegged
10089.0 -2 114.9 19.37 1.098 9.500
0.000 113.8 17.91 9.500
Fit parameter 5 has pegged
10088.2 -3 115.0 19.33 1.094 9.500
0.000 113.9 17.83 9.500
Fit parameter 5 has pegged
10088.1 -4 115.0 19.32 1.094 9.500
0.000 113.9 17.86 9.500
Fit parameter 5 has pegged
10088.1 4 115.0 19.32 1.094 9.500
0.000 113.9 17.86 9.500
10088.1 5 115.0 19.32 1.094 9.500
0.000 113.9 17.86 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.11E-05 | -0.01 0.00 -1.00 -0.01 0.01
7.38E-03 | 0.00 0.00 0.00 0.53 0.84
2.18E-02 | -0.97 -0.09 0.01 0.20 -0.12
4.70E-02 | 0.23 0.07 -0.01 0.82 -0.52
2.24E+00 | 0.10 -0.99 0.00 0.04 -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 115.025 +/- 0.215761 1
2 2 1 gaussian Sigma keV 19.3206 +/- 1.48884 1
3 3 1 gaussian norm 1.09418 +/- 0.655815E-02 1
4 4 2 powerlaw PhoIndex 9.50036 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.941 +/- 0.194453 2
7 7 3 gaussian Sigma keV 17.8559 +/- 0.140272 2
8 3 3 gaussian norm 1.09418 = par 3 2
9 8 4 powerlaw PhoIndex 9.50006 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 10088.08 using 198 PHA bins.
Reduced chi-squared = 53.09515 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 ( 51.209) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 51.209) > 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 0.8551 photons ( 1.6758E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8561 photons ( 1.6550E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:47 12-Jun-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 3.273 +/- 7.3184E-03
Net count rate (cts/s) for file 2 3.273 +/- 7.3184E-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 = 359804.4 using 168 PHA bins.
Reduced chi-squared = 2248.777 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 27863.75 using 168 PHA bins.
Reduced chi-squared = 174.1484 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
13553.5 -3 85.47 14.37 0.1786 1.078
0.8972 85.62 13.83 1.067
2268.13 -4 70.48 16.82 0.2530 0.9690
0.8406 72.69 16.15 0.9761
1082.61 -1 78.08 7.518 0.2017 0.9753
0.8393 77.98 9.031 0.9763
633.473 -2 76.35 9.695 0.2029 0.9809
0.8700 77.27 11.44 0.9827
575.378 -3 75.73 9.522 0.2021 0.9915
0.9096 77.27 9.973 0.9930
573.782 0 75.72 9.505 0.2027 0.9913
0.9101 77.24 10.11 0.9930
573.374 -1 75.70 9.527 0.2041 0.9913
0.9101 77.20 10.22 0.9933
573.270 -2 75.70 9.536 0.2046 0.9922
0.9130 77.20 10.20 0.9942
573.182 -3 75.72 9.538 0.2047 0.9944
0.9213 77.21 10.21 0.9964
573.165 -4 75.72 9.540 0.2048 0.9952
0.9245 77.21 10.21 0.9972
573.163 -5 75.72 9.540 0.2048 0.9952
0.9247 77.21 10.21 0.9972
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.09E-07 | 0.00 0.00 -0.25 0.67 -0.33 0.00 0.00 0.61
9.75E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.74
8.77E-06 | 0.00 0.01 -0.97 -0.16 0.10 0.00 0.04 -0.17
1.29E-03 | 0.04 -0.01 0.00 -0.24 -0.89 0.05 0.30 -0.23
1.58E-03 | -0.01 -0.07 0.04 0.08 0.28 0.01 0.95 0.08
3.98E-02 | 0.71 0.70 0.01 0.01 0.04 -0.02 0.05 0.01
5.71E-02 | -0.43 0.41 0.01 -0.01 -0.04 -0.80 0.05 -0.01
4.61E-02 | -0.56 0.57 0.01 0.00 0.01 0.60 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 75.7220 +/- 0.211955 1
2 2 1 gaussian Sigma keV 9.54049 +/- 0.211367 1
3 3 1 gaussian norm 0.204804 +/- 0.415734E-02 1
4 4 2 powerlaw PhoIndex 0.995171 +/- 0.975951E-02 1
5 5 2 powerlaw norm 0.924655 +/- 0.362935E-01 1
6 6 3 gaussian LineE keV 77.2148 +/- 0.230357 2
7 7 3 gaussian Sigma keV 10.2096 +/- 0.423851E-01 2
8 3 3 gaussian norm 0.204804 = par 3 2
9 8 4 powerlaw PhoIndex 0.997249 +/- 0.937356E-02 2
10 5 4 powerlaw norm 0.924655 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 573.1633 using 168 PHA bins.
Reduced chi-squared = 3.582271 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 ( 3.432) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.432) > 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 1.269 photons ( 1.5119E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.260 photons ( 1.5054E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
111.3627
=====best line=====
75.7232 0.211998
=====best sigma=====
9.53924 0.211438
=====norm=====
0.204784 0.415976E-02
=====phoindx=====
0.995223 0.976063E-02
=====pow_norm=====
0.924909 0.363357E-01
=====best line=====
77.2158 0.230610
=====best sigma=====
10.2064 0.417476E-01
=====norm=====
0.204784 par
=====phoindx=====
0.997310 0.937473E-02
=====pow_norm=====
0.924909 par
=====redu_chi=====
3.582271
=====area_flux=====
1.269
=====area_flux_f=====
1.260
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 2 1 640 2000 1211.5712 0 0.204784 0.415976E-02 9.53924 0.211438 0.995223 0.976063E-02 0.924909 0.363357E-01 1.269 640 2000 1235.4528 0 0.204784 0.415976E-02 10.2064 0.417476E-01 0.997310 0.937473E-02 0.924909 0.363357E-01 1.260 3.582271 1
=====redu_chi=====
344.0196
=====best line=====
115.025 0.215761
=====best sigma=====
19.3206 1.48884
=====norm=====
1.09418 0.655815E-02
=====phoindx=====
9.50036 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.941 0.194453
=====best sigma=====
17.8559 0.140272
=====norm=====
1.09418 par
=====phoindx=====
9.50006 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
53.09515
=====area_flux=====
0.8551
=====area_flux_f=====
0.8561
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 2 1 1600 3200 1840.4 0 1.09418 0.655815E-02 309.1296 23.82144 9.50036 -1.00000 0.00000 -1.00000 0.8551 1600 3200 1823.056 0 1.09418 0.655815E-02 285.6944 2.244352 9.50006 -1.00000 0.00000 -1.00000 0.8561 53.09515 1
=====redu_chi=====
174.1484
=====best line=====
75.7220 0.211955
=====best sigma=====
9.54049 0.211367
=====norm=====
0.204804 0.415734E-02
=====phoindx=====
0.995171 0.975951E-02
=====pow_norm=====
0.924655 0.362935E-01
=====best line=====
77.2148 0.230357
=====best sigma=====
10.2096 0.423851E-01
=====norm=====
0.204804 par
=====phoindx=====
0.997249 0.937356E-02
=====pow_norm=====
0.924655 par
=====redu_chi=====
3.582271
=====area_flux=====
1.269
=====area_flux_f=====
1.260
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 2 1 640 2000 1211.552 0 0.204804 0.415734E-02 9.54049 0.211367 0.995171 0.975951E-02 0.924655 0.362935E-01 1.269 640 2000 1235.4368 0 0.204804 0.415734E-02 10.2096 0.423851E-01 0.997249 0.937356E-02 0.924655 0.362935E-01 1.260 3.582271 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:47 12-Jun-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 2.212 +/- 6.0165E-03
Net count rate (cts/s) for file 2 2.212 +/- 6.0165E-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 = 696411.9 using 168 PHA bins.
Reduced chi-squared = 4352.575 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 14079.56 using 168 PHA bins.
Reduced chi-squared = 87.99723 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
9102.94 -3 81.71 16.97 0.1606 1.110
0.6104 82.10 16.69 1.097
1327.13 -3 69.04 15.86 0.1597 0.9162
0.4506 71.26 14.77 0.9260
565.565 -2 74.78 8.022 0.1207 0.9526
0.5003 75.21 9.532 0.9505
485.668 -2 73.04 9.813 0.1359 0.9740
0.5463 75.14 12.82 0.9739
424.299 -3 73.24 9.160 0.1317 1.028
0.6744 75.43 9.859 1.027
416.217 -4 73.19 9.506 0.1370 1.046
0.7405 75.55 12.31 1.046
356.848 -5 73.28 9.296 0.1336 1.044
0.7455 75.53 9.938 1.045
356.578 0 73.28 9.299 0.1337 1.044
0.7456 75.54 9.962 1.045
355.361 0 73.26 9.324 0.1340 1.044
0.7455 75.57 10.24 1.045
354.783 -1 73.23 9.415 0.1358 1.045
0.7446 75.56 10.28 1.046
354.739 -2 73.24 9.437 0.1364 1.045
0.7447 75.55 10.31 1.046
354.738 -3 73.24 9.434 0.1364 1.045
0.7460 75.55 10.31 1.046
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.08E-06 | 0.00 0.00 -0.40 0.60 -0.38 0.00 0.00 0.58
1.50E-06 | 0.00 0.00 -0.02 -0.70 0.00 0.00 0.00 0.72
6.42E-06 | 0.00 0.01 -0.92 -0.25 0.17 0.00 0.03 -0.26
1.36E-03 | 0.04 0.00 0.00 -0.30 -0.90 0.04 0.10 -0.29
1.79E-03 | 0.00 0.06 -0.03 -0.04 -0.08 -0.02 -0.99 -0.04
5.74E-02 | 0.71 0.70 0.00 0.01 0.03 0.01 0.04 0.01
9.04E-02 | 0.40 -0.42 0.00 0.01 0.04 0.81 -0.04 0.01
6.90E-02 | -0.58 0.57 0.00 0.00 0.00 0.58 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 73.2437 +/- 0.257866 1
2 2 1 gaussian Sigma keV 9.43432 +/- 0.258433 1
3 3 1 gaussian norm 0.136426 +/- 0.341102E-02 1
4 4 2 powerlaw PhoIndex 1.04534 +/- 0.119311E-01 1
5 5 2 powerlaw norm 0.745956 +/- 0.360320E-01 1
6 6 3 gaussian LineE keV 75.5476 +/- 0.288123 2
7 7 3 gaussian Sigma keV 10.3084 +/- 0.455587E-01 2
8 3 3 gaussian norm 0.136426 = par 3 2
9 8 4 powerlaw PhoIndex 1.04618 +/- 0.114561E-01 2
10 5 4 powerlaw norm 0.745956 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 354.7376 using 168 PHA bins.
Reduced chi-squared = 2.217110 for 160 degrees of freedom
Null hypothesis probability = 8.550E-17
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 ( 2.124) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.124) > 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 0.8300 photons ( 9.7930E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8275 photons ( 9.8135E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:47 12-Jun-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 5.368 +/- 9.3729E-03
Net count rate (cts/s) for file 2 5.368 +/- 9.3729E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.156 +/- 1.1138E-02( 58.8% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.156 +/- 1.1138E-02( 58.8% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 9830549. using 198 PHA bins.
Reduced chi-squared = 51739.73 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 53449.34 using 198 PHA bins.
Reduced chi-squared = 281.3123 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
26737.6 -3 119.7 18.72 0.3002 2.760
0.1260 114.5 18.73 2.696
9160.64 -2 108.8 19.36 0.8640 7.893
5.9652E-02 112.8 18.77 6.697
8744.68 -2 111.4 19.36 0.9484 9.121
2.7160E-02 111.6 19.25 9.040
8743.79 -2 111.7 19.36 0.9541 9.413
3.2938E-03 111.4 19.33 9.391
8729.34 -2 111.8 19.37 0.9534 9.465
6.8425E-05 111.4 19.35 9.483
8610.66 -1 112.2 19.37 0.9360 9.490
6.4558E-06 111.8 19.37 9.495
8546.93 -1 112.6 19.37 0.9237 9.495
2.2567E-06 112.2 19.37 9.499
8519.40 -1 112.9 19.37 0.9158 9.499
1.3146E-07 112.4 19.37 9.500
8509.17 -1 113.1 19.37 0.9121 9.500
6.4066E-08 112.5 19.37 9.500
8502.90 -1 113.2 19.37 0.9084 9.500
3.0710E-08 112.7 19.37 9.500
8500.61 -1 113.3 19.37 0.9064 9.500
1.4066E-08 112.7 19.37 9.500
8491.16 -1 113.3 19.37 0.9049 9.500
5.6962E-09 112.7 19.37 9.500
8219.82 0 114.2 19.37 0.8784 9.500
8.0620E-11 112.7 18.98 9.500
8204.57 0 114.4 19.37 0.8737 9.500
3.2480E-11 112.8 18.95 9.500
8191.71 0 114.5 19.37 0.8701 9.500
8.4852E-12 112.9 18.90 9.500
8182.76 0 114.6 19.37 0.8672 9.500
2.5010E-12 113.0 18.86 9.500
8176.17 0 114.7 19.37 0.8648 9.500
1.0077E-12 113.1 18.82 9.500
8171.52 0 114.8 19.37 0.8628 9.500
2.6267E-13 113.2 18.79 9.500
Fit parameter 5 has pegged
8120.93 0 114.8 19.37 0.8568 9.500
0.000 113.1 18.45 9.500
Fit parameter 5 has pegged
8117.47 0 114.8 19.37 0.8539 9.500
0.000 113.2 18.39 9.500
Fit parameter 5 has pegged
8115.24 0 114.8 19.37 0.8520 9.500
0.000 113.3 18.36 9.500
Fit parameter 5 has pegged
8113.57 0 114.8 19.37 0.8507 9.500
0.000 113.3 18.34 9.500
Fit parameter 5 has pegged
8112.17 0 114.8 19.37 0.8495 9.500
0.000 113.4 18.32 9.500
Fit parameter 5 has pegged
8111.22 0 114.8 19.37 0.8487 9.500
0.000 113.4 18.30 9.500
Fit parameter 5 has pegged
8110.30 0 114.9 19.37 0.8479 9.500
0.000 113.5 18.29 9.500
Fit parameter 5 has pegged
8109.75 0 114.9 19.37 0.8473 9.500
0.000 113.5 18.28 9.500
Fit parameter 5 has pegged
8109.14 0 114.9 19.37 0.8468 9.500
0.000 113.5 18.27 9.500
Fit parameter 5 has pegged
8108.81 0 114.9 19.37 0.8463 9.500
0.000 113.6 18.26 9.500
Fit parameter 5 has pegged
8108.64 0 114.9 19.37 0.8460 9.500
0.000 113.6 18.25 9.500
Fit parameter 5 has pegged
8108.30 0 114.9 19.37 0.8457 9.500
0.000 113.6 18.24 9.500
Fit parameter 5 has pegged
8108.13 0 114.9 19.37 0.8455 9.500
0.000 113.6 18.24 9.500
Fit parameter 5 has pegged
8107.98 0 114.9 19.37 0.8453 9.500
0.000 113.6 18.23 9.500
Fit parameter 5 has pegged
8107.80 0 114.9 19.37 0.8451 9.500
0.000 113.6 18.23 9.500
Fit parameter 5 has pegged
8107.68 0 114.9 19.37 0.8449 9.500
0.000 113.6 18.23 9.500
Fit parameter 5 has pegged
8107.44 0 115.0 19.37 0.8448 9.500
0.000 113.6 18.23 9.500
Fit parameter 5 has pegged
8107.28 0 115.0 19.37 0.8445 9.500
0.000 113.6 18.22 9.500
Fit parameter 5 has pegged
8107.12 0 115.0 19.37 0.8444 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8106.88 0 115.0 19.37 0.8442 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8106.70 0 115.0 19.37 0.8441 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8106.49 0 115.0 19.37 0.8440 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8106.32 0 115.0 19.37 0.8438 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8106.19 0 115.0 19.37 0.8437 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8106.07 0 115.0 19.37 0.8436 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.95 0 115.0 19.37 0.8435 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.85 0 115.1 19.37 0.8434 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.75 0 115.1 19.37 0.8433 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.67 0 115.1 19.37 0.8431 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.54 0 115.1 19.37 0.8430 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.52 0 115.1 19.37 0.8429 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.45 0 115.1 19.37 0.8428 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.39 0 115.1 19.37 0.8428 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.33 0 115.1 19.37 0.8427 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.30 0 115.1 19.37 0.8426 9.500
0.000 113.7 18.21 9.500
Fit parameter 5 has pegged
8105.21 0 115.1 19.37 0.8425 9.500
0.000 113.7 18.21 9.500
Fit parameter 5 has pegged
8105.21 0 115.1 19.37 0.8424 9.500
0.000 113.7 18.21 9.500
8105.12 0 115.1 19.37 0.8423 9.500
0.000 113.7 18.22 9.500
Fit parameter 5 has pegged
8105.12 4 115.1 19.37 0.8423 9.500
0.000 113.7 18.22 9.500
8105.12 4 115.1 19.37 0.8423 9.500
0.000 113.7 18.22 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.50E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.45E-02 | 0.05 0.00 0.00 -0.73 -0.68
2.77E-02 | -0.98 -0.08 0.01 0.08 -0.16
8.05E-02 | 0.17 0.06 -0.01 0.67 -0.72
3.88E+00 | -0.08 1.00 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 115.126 +/- 0.238494 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.95950 1
3 3 1 gaussian norm 0.842319 +/- 0.569101E-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 113.690 +/- 0.222488 2
7 7 3 gaussian Sigma keV 18.2186 +/- 0.230085 2
8 3 3 gaussian norm 0.842319 = 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 = 8105.121 using 198 PHA bins.
Reduced chi-squared = 42.65853 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 ( 41.143) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 41.143) > 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 0.6591 photons ( 1.2927E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.6517 photons ( 1.2611E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:48 12-Jun-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 2.212 +/- 6.0165E-03
Net count rate (cts/s) for file 2 2.212 +/- 6.0165E-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 = 813251.0 using 168 PHA bins.
Reduced chi-squared = 5082.819 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21214.73 using 168 PHA bins.
Reduced chi-squared = 132.5921 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
17513.0 -3 85.51 14.73 0.1036 1.161
0.6677 85.38 14.06 1.142
2464.25 -4 64.90 18.37 0.1927 1.057
0.8210 68.09 17.66 1.067
1066.65 0 70.25 16.48 0.1800 1.066
0.7953 72.06 16.33 1.072
585.579 -1 74.98 8.304 0.1460 1.068
0.7991 75.98 9.171 1.068
380.288 -2 73.61 9.634 0.1378 1.062
0.7981 75.76 11.46 1.062
355.807 -3 73.30 9.404 0.1354 1.049
0.7582 75.53 10.08 1.050
355.086 -4 73.24 9.455 0.1366 1.046
0.7469 75.56 10.44 1.047
354.742 -5 73.25 9.426 0.1363 1.045
0.7464 75.54 10.29 1.046
354.738 -6 73.24 9.439 0.1365 1.045
0.7464 75.55 10.31 1.046
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.08E-06 | 0.00 0.00 -0.40 0.60 -0.38 0.00 0.00 0.58
1.50E-06 | 0.00 0.00 -0.02 -0.70 0.00 0.00 0.00 0.72
6.41E-06 | 0.00 0.01 -0.92 -0.25 0.17 0.00 0.03 -0.26
1.36E-03 | 0.04 0.00 0.00 -0.30 -0.91 0.04 0.08 -0.29
1.88E-03 | 0.00 0.06 -0.03 -0.03 -0.07 -0.02 -0.99 -0.03
5.73E-02 | 0.71 0.70 0.00 0.01 0.03 0.01 0.04 0.01
9.00E-02 | 0.40 -0.42 0.00 0.01 0.04 0.81 -0.05 0.01
6.89E-02 | -0.58 0.57 0.00 0.00 0.00 0.58 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 73.2423 +/- 0.257621 1
2 2 1 gaussian Sigma keV 9.43866 +/- 0.258140 1
3 3 1 gaussian norm 0.136467 +/- 0.340614E-02 1
4 4 2 powerlaw PhoIndex 1.04547 +/- 0.119246E-01 1
5 5 2 powerlaw norm 0.746370 +/- 0.360903E-01 1
6 6 3 gaussian LineE keV 75.5489 +/- 0.287561 2
7 7 3 gaussian Sigma keV 10.3117 +/- 0.467280E-01 2
8 3 3 gaussian norm 0.136467 = par 3 2
9 8 4 powerlaw PhoIndex 1.04632 +/- 0.114498E-01 2
10 5 4 powerlaw norm 0.746370 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 354.7375 using 168 PHA bins.
Reduced chi-squared = 2.217110 for 160 degrees of freedom
Null hypothesis probability = 8.550E-17
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 ( 2.124) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.124) > 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 0.8301 photons ( 9.7934E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8275 photons ( 9.8134E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
87.99723
=====best line=====
73.2437 0.257866
=====best sigma=====
9.43432 0.258433
=====norm=====
0.136426 0.341102E-02
=====phoindx=====
1.04534 0.119311E-01
=====pow_norm=====
0.745956 0.360320E-01
=====best line=====
75.5476 0.288123
=====best sigma=====
10.3084 0.455587E-01
=====norm=====
0.136426 par
=====phoindx=====
1.04618 0.114561E-01
=====pow_norm=====
0.745956 par
=====redu_chi=====
2.217110
=====area_flux=====
0.8300
=====area_flux_f=====
0.8275
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 3 1 640 2000 1171.8992 0 0.136426 0.341102E-02 9.43432 0.258433 1.04534 0.119311E-01 0.745956 0.360320E-01 0.8300 640 2000 1208.7616 0 0.136426 0.341102E-02 10.3084 0.455587E-01 1.04618 0.114561E-01 0.745956 0.360320E-01 0.8275 2.217110 0
=====redu_chi=====
281.3123
=====best line=====
115.126 0.238494
=====best sigma=====
19.3655 1.95950
=====norm=====
0.842319 0.569101E-02
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.690 0.222488
=====best sigma=====
18.2186 0.230085
=====norm=====
0.842319 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
42.65853
=====area_flux=====
0.6591
=====area_flux_f=====
0.6517
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 3 1 1600 3200 1842.016 0 0.842319 0.569101E-02 309.848 31.352 9.50001 -1.00000 0.00000 -1.00000 0.6591 1600 3200 1819.04 0 0.842319 0.569101E-02 291.4976 3.68136 9.50000 -1.00000 0.00000 -1.00000 0.6517 42.65853 1
=====redu_chi=====
132.5921
=====best line=====
73.2423 0.257621
=====best sigma=====
9.43866 0.258140
=====norm=====
0.136467 0.340614E-02
=====phoindx=====
1.04547 0.119246E-01
=====pow_norm=====
0.746370 0.360903E-01
=====best line=====
75.5489 0.287561
=====best sigma=====
10.3117 0.467280E-01
=====norm=====
0.136467 par
=====phoindx=====
1.04632 0.114498E-01
=====pow_norm=====
0.746370 par
=====redu_chi=====
2.217110
=====area_flux=====
0.8301
=====area_flux_f=====
0.8275
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 3 1 640 2000 1171.8768 0 0.136467 0.340614E-02 9.43866 0.258140 1.04547 0.119246E-01 0.746370 0.360903E-01 0.8301 640 2000 1208.7824 0 0.136467 0.340614E-02 10.3117 0.467280E-01 1.04632 0.114498E-01 0.746370 0.360903E-01 0.8275 2.217110 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:48 12-Jun-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 2.090 +/- 5.8490E-03
Net count rate (cts/s) for file 2 2.090 +/- 5.8490E-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 = 544513.9 using 168 PHA bins.
Reduced chi-squared = 3403.212 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 4586.191 using 168 PHA bins.
Reduced chi-squared = 28.66370 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
663.542 -3 87.14 12.93 0.1299 0.8633
0.3676 88.40 12.49 0.8610
397.041 -4 84.43 10.45 0.1308 0.8846
0.3900 87.12 11.01 0.8842
392.455 -5 84.63 10.95 0.1365 0.8990
0.4120 87.24 11.67 0.8990
391.538 -6 84.75 10.82 0.1350 0.8973
0.4115 87.30 11.49 0.8978
391.497 -7 84.72 10.91 0.1360 0.8991
0.4138 87.28 11.58 0.8995
391.481 -8 84.74 10.87 0.1355 0.8983
0.4129 87.29 11.54 0.8988
391.480 -9 84.73 10.89 0.1358 0.8987
0.4134 87.29 11.56 0.8991
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.82E-07 | 0.00 0.00 -0.32 0.53 -0.60 0.00 0.00 0.51
1.44E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
6.31E-06 | 0.00 0.03 -0.94 -0.15 0.24 0.00 0.03 -0.16
6.77E-04 | 0.02 0.21 -0.03 -0.45 -0.74 0.02 0.16 -0.43
1.70E-03 | 0.00 -0.75 -0.01 -0.03 -0.04 0.01 0.66 -0.02
5.25E-03 | 0.01 -0.62 -0.05 -0.13 -0.18 0.01 -0.74 -0.12
1.08E-01 | -0.36 0.00 0.00 -0.01 -0.02 -0.93 0.00 -0.01
8.77E-02 | 0.93 0.00 0.00 0.01 0.01 -0.36 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 84.7277 +/- 0.300528 1
2 2 1 gaussian Sigma keV 10.8892 +/- 0.551260E-01 1
3 3 1 gaussian norm 0.135754 +/- 0.450232E-02 1
4 4 2 powerlaw PhoIndex 0.898678 +/- 0.156022E-01 1
5 5 2 powerlaw norm 0.413360 +/- 0.247865E-01 1
6 6 3 gaussian LineE keV 87.2881 +/- 0.324390 2
7 7 3 gaussian Sigma keV 11.5572 +/- 0.600712E-01 2
8 3 3 gaussian norm 0.135754 = par 3 2
9 8 4 powerlaw PhoIndex 0.899147 +/- 0.150003E-01 2
10 5 4 powerlaw norm 0.413360 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 391.4801 using 168 PHA bins.
Reduced chi-squared = 2.446750 for 160 degrees of freedom
Null hypothesis probability = 2.015E-21
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 ( 2.344) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.344) > 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 0.8532 photons ( 1.0446E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8516 photons ( 1.0482E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:48 12-Jun-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 5.137 +/- 9.1684E-03
Net count rate (cts/s) for file 2 5.137 +/- 9.1684E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.046 +/- 1.0875E-02( 59.3% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.046 +/- 1.0875E-02( 59.3% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1760769. using 198 PHA bins.
Reduced chi-squared = 9267.205 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 66630.59 using 198 PHA bins.
Reduced chi-squared = 350.6873 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
37863.3 -3 126.1 17.97 0.3822 2.706
0.8168 128.8 17.84 2.895
37505.6 2 126.1 17.97 0.3827 2.156
2.628 128.8 17.84 2.643
36661.4 1 126.2 17.95 0.3879 2.069
3.847 128.8 17.83 2.457
28476.8 0 126.8 17.93 0.4334 1.779
9.736 129.3 17.83 2.113
17968.3 0 127.9 19.24 0.6524 1.766
10.41 130.1 18.94 2.152
15641.8 -1 125.0 19.33 1.086 1.816
6.988 127.1 19.31 2.632
15067.9 0 125.0 19.35 1.059 1.822
6.835 127.2 19.35 4.046
14808.2 0 125.1 19.36 1.043 1.823
6.915 127.3 19.37 9.265
14653.2 0 125.2 19.37 1.033 1.823
7.038 127.4 19.37 9.427
14561.1 0 125.2 19.37 1.027 1.822
7.197 127.6 19.37 9.478
14494.8 0 125.3 19.37 1.023 1.823
7.282 127.7 19.37 9.495
14452.7 0 125.4 19.37 1.020 1.823
7.400 127.8 19.37 9.499
14422.9 0 125.5 19.37 1.018 1.825
7.482 127.8 19.37 9.500
14400.8 0 125.5 19.37 1.017 1.826
7.573 127.9 19.37 9.500
14385.8 0 125.6 19.37 1.016 1.828
7.663 127.9 19.37 9.500
14368.9 0 125.6 19.37 1.015 1.830
7.736 128.0 19.37 9.500
14358.9 0 125.6 19.37 1.015 1.832
7.815 128.0 19.37 9.500
14351.8 0 125.7 19.37 1.014 1.834
7.898 128.0 19.37 9.500
14344.1 0 125.7 19.37 1.014 1.836
7.955 128.0 19.37 9.500
14338.6 0 125.7 19.37 1.014 1.838
8.031 128.0 19.37 9.500
14336.8 0 125.7 19.37 1.013 1.839
8.143 128.0 19.37 9.500
14334.1 0 125.7 19.37 1.013 1.842
8.209 128.1 19.37 9.500
14329.5 0 125.7 19.37 1.013 1.844
8.285 128.1 19.37 9.500
14327.4 0 125.7 19.37 1.013 1.846
8.371 128.1 19.37 9.500
14325.5 0 125.7 19.37 1.013 1.847
8.496 128.1 19.37 9.500
14322.6 0 125.8 19.37 1.013 1.849
8.559 128.1 19.37 9.500
14256.2 0 125.8 19.37 1.007 1.849
8.553 128.1 19.37 9.500
14198.7 0 125.9 19.37 1.002 1.850
8.558 128.2 19.37 9.500
14148.4 0 126.0 19.37 0.9967 1.849
8.571 128.2 19.37 9.500
14104.1 0 126.0 19.37 0.9922 1.849
8.592 128.3 19.37 9.500
14065.0 0 126.1 19.37 0.9880 1.849
8.616 128.3 19.37 9.500
14030.2 0 126.2 19.37 0.9842 1.848
8.644 128.4 19.37 9.500
13999.2 0 126.2 19.37 0.9807 1.848
8.675 128.4 19.37 9.500
13946.8 0 126.4 19.37 0.9744 1.847
8.738 128.5 19.37 9.500
13924.5 0 126.4 19.37 0.9715 1.847
8.772 128.6 19.37 9.500
13904.5 0 126.5 19.37 0.9689 1.846
8.804 128.6 19.37 9.500
13886.4 0 126.5 19.37 0.9665 1.846
8.837 128.6 19.37 9.500
13870.1 0 126.6 19.37 0.9643 1.845
8.870 128.7 19.37 9.500
13855.3 0 126.6 19.37 0.9622 1.845
8.901 128.7 19.37 9.500
13841.9 0 126.7 19.37 0.9602 1.844
8.931 128.7 19.37 9.500
13829.6 0 126.7 19.37 0.9584 1.844
8.961 128.8 19.37 9.500
13818.5 0 126.8 19.37 0.9567 1.844
8.989 128.8 19.37 9.500
13808.4 0 126.8 19.37 0.9551 1.844
9.016 128.8 19.37 9.500
13799.2 0 126.9 19.37 0.9536 1.843
9.042 128.9 19.37 9.500
13790.8 0 126.9 19.37 0.9522 1.843
9.066 128.9 19.37 9.500
13783.0 0 127.0 19.37 0.9510 1.843
9.091 128.9 19.37 9.500
13775.9 0 127.0 19.37 0.9497 1.843
9.114 129.0 19.37 9.500
13769.5 0 127.1 19.37 0.9486 1.843
9.137 129.0 19.37 9.500
13763.4 0 127.1 19.37 0.9476 1.843
9.158 129.0 19.37 9.500
13758.0 0 127.1 19.37 0.9466 1.843
9.179 129.0 19.37 9.500
13752.9 0 127.2 19.37 0.9457 1.843
9.200 129.1 19.37 9.500
13748.2 0 127.2 19.37 0.9448 1.842
9.219 129.1 19.37 9.500
13743.9 0 127.2 19.37 0.9440 1.842
9.238 129.1 19.37 9.500
13739.9 0 127.3 19.37 0.9432 1.842
9.256 129.1 19.37 9.500
13736.3 0 127.3 19.37 0.9425 1.842
9.274 129.2 19.37 9.500
13732.9 0 127.3 19.37 0.9418 1.843
9.291 129.2 19.37 9.500
13729.7 0 127.4 19.37 0.9412 1.843
9.308 129.2 19.37 9.500
13726.8 0 127.4 19.37 0.9406 1.843
9.324 129.2 19.37 9.500
13724.1 0 127.4 19.37 0.9400 1.843
9.340 129.2 19.37 9.500
13721.6 0 127.5 19.37 0.9395 1.843
9.356 129.2 19.37 9.500
13719.3 0 127.5 19.37 0.9390 1.843
9.371 129.3 19.37 9.500
13717.1 0 127.5 19.37 0.9385 1.843
9.387 129.3 19.37 9.500
13715.1 0 127.5 19.37 0.9381 1.843
9.401 129.3 19.37 9.500
13713.2 0 127.6 19.37 0.9377 1.843
9.416 129.3 19.37 9.500
13711.4 0 127.6 19.37 0.9373 1.843
9.429 129.3 19.37 9.500
13709.8 0 127.6 19.37 0.9369 1.843
9.443 129.3 19.37 9.500
13708.3 0 127.6 19.37 0.9366 1.843
9.456 129.3 19.37 9.500
13706.8 0 127.6 19.37 0.9363 1.844
9.470 129.3 19.37 9.500
13705.5 0 127.7 19.37 0.9359 1.844
9.483 129.4 19.37 9.500
13704.3 0 127.7 19.37 0.9357 1.844
9.496 129.4 19.37 9.500
13703.1 0 127.7 19.37 0.9354 1.844
9.508 129.4 19.37 9.500
13702.0 0 127.7 19.37 0.9351 1.844
9.521 129.4 19.37 9.500
13700.9 0 127.7 19.37 0.9349 1.844
9.535 129.4 19.37 9.500
13700.0 0 127.7 19.37 0.9346 1.845
9.547 129.4 19.37 9.500
13699.0 0 127.7 19.37 0.9344 1.845
9.559 129.4 19.37 9.500
13698.2 0 127.8 19.37 0.9342 1.845
9.570 129.4 19.37 9.500
13697.4 0 127.8 19.37 0.9340 1.845
9.581 129.4 19.37 9.500
13696.6 0 127.8 19.37 0.9338 1.845
9.594 129.4 19.37 9.500
13695.9 0 127.8 19.37 0.9336 1.845
9.606 129.4 19.37 9.500
13695.3 0 127.8 19.37 0.9335 1.846
9.619 129.4 19.37 9.500
13694.6 0 127.8 19.37 0.9333 1.846
9.629 129.4 19.37 9.500
13694.0 0 127.8 19.37 0.9331 1.846
9.641 129.5 19.37 9.500
13693.4 0 127.8 19.37 0.9330 1.846
9.653 129.5 19.37 9.500
13692.9 0 127.9 19.37 0.9329 1.846
9.665 129.5 19.37 9.500
13692.4 0 127.9 19.37 0.9328 1.847
9.677 129.5 19.37 9.500
13691.9 0 127.9 19.37 0.9326 1.847
9.689 129.5 19.37 9.500
13691.4 0 127.9 19.37 0.9325 1.847
9.701 129.5 19.37 9.500
13691.0 0 127.9 19.37 0.9324 1.847
9.711 129.5 19.37 9.500
13690.6 0 127.9 19.37 0.9323 1.847
9.723 129.5 19.37 9.500
13690.2 0 127.9 19.37 0.9322 1.848
9.735 129.5 19.37 9.500
13689.8 0 127.9 19.37 0.9321 1.848
9.746 129.5 19.37 9.500
13689.4 0 127.9 19.37 0.9320 1.848
9.756 129.5 19.37 9.500
13689.1 0 127.9 19.37 0.9319 1.848
9.769 129.5 19.37 9.500
13688.7 0 127.9 19.37 0.9318 1.848
9.780 129.5 19.37 9.500
13688.4 0 127.9 19.37 0.9318 1.849
9.792 129.5 19.37 9.500
13688.1 0 128.0 19.37 0.9317 1.849
9.803 129.5 19.37 9.500
13687.8 0 128.0 19.37 0.9316 1.849
9.814 129.5 19.37 9.500
13687.6 0 128.0 19.37 0.9316 1.849
9.827 129.5 19.37 9.500
13687.4 0 128.0 19.37 0.9315 1.849
9.840 129.5 19.37 9.500
13687.1 0 128.0 19.37 0.9314 1.850
9.851 129.5 19.37 9.500
13686.8 0 128.0 19.37 0.9314 1.850
9.862 129.5 19.37 9.500
13686.6 0 128.0 19.37 0.9313 1.850
9.874 129.5 19.37 9.500
13686.4 0 128.0 19.37 0.9313 1.850
9.885 129.5 19.37 9.500
13686.1 0 128.0 19.37 0.9312 1.851
9.896 129.5 19.37 9.500
13686.0 0 128.0 19.37 0.9312 1.851
9.907 129.5 19.37 9.500
13685.8 0 128.0 19.37 0.9311 1.851
9.918 129.5 19.37 9.500
13685.5 0 128.0 19.37 0.9311 1.851
9.929 129.5 19.37 9.500
13685.4 0 128.0 19.37 0.9310 1.851
9.941 129.5 19.37 9.500
13685.2 0 128.0 19.37 0.9310 1.852
9.951 129.5 19.37 9.500
13685.0 0 128.0 19.37 0.9310 1.852
9.962 129.5 19.37 9.500
13684.9 0 128.0 19.37 0.9309 1.852
9.975 129.5 19.37 9.500
13684.7 0 128.0 19.37 0.9309 1.852
9.986 129.5 19.37 9.500
13684.6 0 128.0 19.37 0.9309 1.853
9.999 129.5 19.37 9.500
13684.4 0 128.0 19.37 0.9308 1.853
10.01 129.5 19.37 9.500
13684.2 0 128.0 19.37 0.9308 1.853
10.02 129.5 19.37 9.500
13684.1 0 128.0 19.37 0.9308 1.853
10.03 129.5 19.37 9.500
13683.9 0 128.0 19.37 0.9307 1.853
10.04 129.5 19.37 9.500
13683.8 0 128.0 19.37 0.9307 1.854
10.06 129.5 19.37 9.500
13683.7 0 128.0 19.37 0.9307 1.854
10.07 129.5 19.37 9.500
13683.6 0 128.0 19.37 0.9306 1.854
10.08 129.5 19.37 9.500
13683.4 0 128.0 19.37 0.9306 1.854
10.09 129.5 19.37 9.500
13683.3 0 128.1 19.37 0.9306 1.855
10.10 129.5 19.37 9.500
13683.2 0 128.1 19.37 0.9306 1.855
10.11 129.5 19.37 9.500
13683.1 0 128.1 19.37 0.9306 1.855
10.13 129.5 19.37 9.500
13683.0 0 128.1 19.37 0.9305 1.855
10.14 129.5 19.37 9.500
13682.8 0 128.1 19.37 0.9305 1.855
10.15 129.5 19.37 9.500
13682.7 0 128.1 19.37 0.9305 1.856
10.16 129.5 19.37 9.500
13682.6 0 128.1 19.37 0.9305 1.856
10.17 129.5 19.37 9.500
13682.5 0 128.1 19.37 0.9305 1.856
10.19 129.5 19.37 9.500
13682.4 0 128.1 19.37 0.9304 1.856
10.20 129.5 19.37 9.500
13682.3 0 128.1 19.37 0.9304 1.856
10.21 129.5 19.37 9.500
13682.2 0 128.1 19.37 0.9304 1.857
10.22 129.6 19.37 9.500
13682.1 0 128.1 19.37 0.9304 1.857
10.23 129.6 19.37 9.500
13682.0 0 128.1 19.37 0.9304 1.857
10.24 129.6 19.37 9.500
13681.9 0 128.1 19.37 0.9304 1.857
10.26 129.6 19.37 9.500
13681.8 0 128.1 19.37 0.9303 1.858
10.27 129.6 19.37 9.500
13681.7 0 128.1 19.37 0.9303 1.858
10.28 129.6 19.37 9.500
13681.6 0 128.1 19.37 0.9303 1.858
10.29 129.6 19.37 9.500
13681.6 0 128.1 19.37 0.9303 1.858
10.30 129.6 19.37 9.500
13681.5 0 128.1 19.37 0.9303 1.858
10.32 129.6 19.37 9.500
13681.4 0 128.1 19.37 0.9303 1.859
10.33 129.6 19.37 9.500
13681.3 0 128.1 19.37 0.9303 1.859
10.34 129.6 19.37 9.500
13681.2 0 128.1 19.37 0.9303 1.859
10.35 129.6 19.37 9.500
13681.1 0 128.1 19.37 0.9303 1.859
10.37 129.6 19.37 9.500
13681.1 0 128.1 19.37 0.9303 1.859
10.38 129.6 19.37 9.500
13681.0 0 128.1 19.37 0.9302 1.860
10.39 129.6 19.37 9.500
13680.9 0 128.1 19.37 0.9302 1.860
10.40 129.6 19.37 9.500
13680.8 0 128.1 19.37 0.9302 1.860
10.42 129.6 19.37 9.500
13680.7 0 128.1 19.37 0.9302 1.860
10.43 129.6 19.37 9.500
13680.6 0 128.1 19.37 0.9302 1.861
10.44 129.6 19.37 9.500
13680.6 0 128.1 19.37 0.9302 1.861
10.45 129.6 19.37 9.500
13680.5 0 128.1 19.37 0.9302 1.861
10.46 129.6 19.37 9.500
13680.4 0 128.1 19.37 0.9302 1.861
10.48 129.6 19.37 9.500
13680.4 0 128.1 19.37 0.9301 1.861
10.49 129.6 19.37 9.500
13680.3 0 128.1 19.37 0.9301 1.862
10.50 129.6 19.37 9.500
13680.2 0 128.1 19.37 0.9301 1.862
10.51 129.6 19.37 9.500
13680.1 0 128.1 19.37 0.9301 1.862
10.53 129.6 19.37 9.500
13680.0 0 128.1 19.37 0.9301 1.862
10.54 129.6 19.37 9.500
13680.0 0 128.1 19.37 0.9301 1.863
10.55 129.6 19.37 9.500
13679.9 0 128.1 19.37 0.9301 1.863
10.56 129.6 19.37 9.500
13679.8 0 128.1 19.37 0.9301 1.863
10.58 129.6 19.37 9.500
13679.8 0 128.1 19.37 0.9301 1.863
10.59 129.6 19.37 9.500
13679.7 0 128.1 19.37 0.9301 1.863
10.60 129.6 19.37 9.500
13679.6 0 128.1 19.37 0.9301 1.864
10.61 129.6 19.37 9.500
13679.5 0 128.1 19.37 0.9301 1.864
10.62 129.6 19.37 9.500
13679.5 0 128.1 19.37 0.9300 1.864
10.63 129.6 19.37 9.500
13679.4 0 128.1 19.37 0.9300 1.864
10.65 129.6 19.37 9.500
13679.3 0 128.1 19.37 0.9300 1.865
10.66 129.6 19.37 9.500
13679.3 0 128.1 19.37 0.9300 1.865
10.67 129.6 19.37 9.500
13679.2 0 128.1 19.37 0.9300 1.865
10.69 129.6 19.37 9.500
13679.1 0 128.1 19.37 0.9300 1.865
10.70 129.6 19.37 9.500
13679.1 0 128.1 19.37 0.9300 1.865
10.71 129.6 19.37 9.500
13679.0 0 128.1 19.37 0.9300 1.866
10.72 129.6 19.37 9.500
13678.9 0 128.1 19.37 0.9300 1.866
10.73 129.6 19.37 9.500
13678.8 0 128.1 19.37 0.9300 1.866
10.75 129.6 19.37 9.500
13678.8 0 128.1 19.37 0.9300 1.866
10.76 129.6 19.37 9.500
13678.7 0 128.1 19.37 0.9300 1.866
10.77 129.6 19.37 9.500
13678.7 0 128.1 19.37 0.9300 1.867
10.78 129.6 19.37 9.500
13678.6 0 128.1 19.37 0.9300 1.867
10.80 129.6 19.37 9.500
13678.5 0 128.1 19.37 0.9300 1.867
10.81 129.6 19.37 9.500
13678.4 0 128.1 19.37 0.9299 1.867
10.82 129.6 19.37 9.500
13678.4 0 128.1 19.37 0.9299 1.868
10.84 129.6 19.37 9.500
13678.3 0 128.1 19.37 0.9299 1.868
10.85 129.6 19.37 9.500
13678.3 0 128.1 19.37 0.9299 1.868
10.86 129.6 19.37 9.500
13678.2 0 128.1 19.37 0.9299 1.868
10.87 129.6 19.37 9.500
13678.1 0 128.1 19.37 0.9299 1.868
10.89 129.6 19.37 9.500
13678.1 0 128.1 19.37 0.9299 1.869
10.90 129.6 19.37 9.500
13678.0 0 128.1 19.37 0.9299 1.869
10.91 129.6 19.37 9.500
13677.9 0 128.1 19.37 0.9299 1.869
10.92 129.6 19.37 9.500
13677.9 0 128.1 19.37 0.9299 1.869
10.94 129.6 19.37 9.500
13677.8 0 128.1 19.37 0.9299 1.870
10.95 129.6 19.37 9.500
13677.8 0 128.1 19.37 0.9299 1.870
10.96 129.6 19.37 9.500
13677.7 0 128.1 19.37 0.9299 1.870
10.98 129.6 19.37 9.500
13677.6 0 128.1 19.37 0.9299 1.870
10.99 129.6 19.37 9.500
13677.6 0 128.1 19.37 0.9299 1.870
11.00 129.6 19.37 9.500
13677.5 0 128.1 19.37 0.9299 1.871
11.01 129.6 19.37 9.500
13677.4 0 128.1 19.37 0.9299 1.871
11.03 129.6 19.37 9.500
13677.3 0 128.1 19.37 0.9299 1.871
11.04 129.6 19.37 9.500
13677.3 0 128.1 19.37 0.9298 1.871
11.05 129.6 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.37E-05 | 0.00 0.00 -0.96 0.29 -0.01 0.00 0.00
4.33E-05 | 0.00 0.00 -0.29 -0.96 0.02 0.00 0.00
2.62E-02 | 1.00 0.02 0.00 0.00 -0.01 0.09 0.01
2.24E-02 | 0.09 0.00 0.00 0.00 0.00 -1.00 -0.03
3.29E+00 | 0.00 0.33 0.00 0.00 -0.05 0.03 -0.94
6.68E+00 | 0.02 -0.94 0.00 0.00 -0.01 0.02 -0.33
1.31E+02 | 0.01 0.01 0.00 0.02 1.00 0.00 -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 128.106 +/- 0.185300 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.51364 1
3 3 1 gaussian norm 0.929847 +/- 0.620299E-02 1
4 4 2 powerlaw PhoIndex 1.87137 +/- 0.209851 1
5 5 2 powerlaw norm 11.0503 +/- 11.4503 1
6 6 3 gaussian LineE keV 129.561 +/- 0.168980 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.99224 2
8 3 3 gaussian norm 0.929847 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 11.0503 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13677.31 using 198 PHA bins.
Reduced chi-squared = 71.98582 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 ( 69.428) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 69.428) > 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 0.9646 photons ( 2.0377E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8706 photons ( 1.8430E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:49 12-Jun-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 2.090 +/- 5.8490E-03
Net count rate (cts/s) for file 2 2.090 +/- 5.8490E-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 = 602603.2 using 168 PHA bins.
Reduced chi-squared = 3766.270 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 9208.475 using 168 PHA bins.
Reduced chi-squared = 57.55297 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
621.210 -3 87.95 11.97 0.1404 0.9225
0.4340 88.99 11.65 0.9177
405.963 -4 84.74 12.05 0.1430 0.9167
0.4415 87.36 12.09 0.9169
397.051 -5 84.98 10.35 0.1307 0.8905
0.4019 87.34 11.18 0.8919
392.476 -6 84.63 11.09 0.1377 0.9021
0.4175 87.26 11.72 0.9022
391.684 -7 84.78 10.78 0.1346 0.8967
0.4108 87.30 11.46 0.8973
391.532 -8 84.71 10.93 0.1362 0.8994
0.4143 87.28 11.59 0.8998
391.488 -9 84.74 10.86 0.1354 0.8981
0.4126 87.29 11.53 0.8986
391.482 -10 84.73 10.89 0.1358 0.8988
0.4135 87.29 11.56 0.8992
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.82E-07 | 0.00 0.00 -0.32 0.53 -0.60 0.00 0.00 0.51
1.44E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
6.30E-06 | 0.00 0.03 -0.94 -0.15 0.24 0.00 0.03 -0.16
6.76E-04 | 0.02 0.21 -0.03 -0.45 -0.74 0.02 0.16 -0.43
1.70E-03 | 0.00 -0.75 -0.01 -0.03 -0.04 0.01 0.66 -0.02
5.23E-03 | 0.01 -0.62 -0.05 -0.13 -0.18 0.01 -0.74 -0.12
1.08E-01 | -0.36 0.00 0.00 -0.01 -0.02 -0.93 0.00 -0.01
8.76E-02 | 0.93 0.00 0.00 0.01 0.01 -0.36 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 84.7253 +/- 0.300322 1
2 2 1 gaussian Sigma keV 10.8940 +/- 0.550433E-01 1
3 3 1 gaussian norm 0.135805 +/- 0.449535E-02 1
4 4 2 powerlaw PhoIndex 0.898763 +/- 0.155884E-01 1
5 5 2 powerlaw norm 0.413465 +/- 0.247532E-01 1
6 6 3 gaussian LineE keV 87.2875 +/- 0.324294 2
7 7 3 gaussian Sigma keV 11.5615 +/- 0.599799E-01 2
8 3 3 gaussian norm 0.135805 = par 3 2
9 8 4 powerlaw PhoIndex 0.899223 +/- 0.149870E-01 2
10 5 4 powerlaw norm 0.413465 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 391.4822 using 168 PHA bins.
Reduced chi-squared = 2.446764 for 160 degrees of freedom
Null hypothesis probability = 2.014E-21
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 ( 2.344) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.344) > 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 0.8531 photons ( 1.0445E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8516 photons ( 1.0482E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
28.66370
=====best line=====
84.7277 0.300528
=====best sigma=====
10.8892 0.551260E-01
=====norm=====
0.135754 0.450232E-02
=====phoindx=====
0.898678 0.156022E-01
=====pow_norm=====
0.413360 0.247865E-01
=====best line=====
87.2881 0.324390
=====best sigma=====
11.5572 0.600712E-01
=====norm=====
0.135754 par
=====phoindx=====
0.899147 0.150003E-01
=====pow_norm=====
0.413360 par
=====redu_chi=====
2.446750
=====area_flux=====
0.8532
=====area_flux_f=====
0.8516
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 4 1 640 2000 1355.6432 0 0.135754 0.450232E-02 10.8892 0.551260E-01 0.898678 0.156022E-01 0.413360 0.247865E-01 0.8532 640 2000 1396.6096 0 0.135754 0.450232E-02 11.5572 0.600712E-01 0.899147 0.150003E-01 0.413360 0.247865E-01 0.8516 2.446750 0
=====redu_chi=====
350.6873
=====best line=====
128.106 0.185300
=====best sigma=====
19.3655 2.51364
=====norm=====
0.929847 0.620299E-02
=====phoindx=====
1.87137 0.209851
=====pow_norm=====
11.0503 11.4503
=====best line=====
129.561 0.168980
=====best sigma=====
19.3655 1.99224
=====norm=====
0.929847 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
11.0503 par
=====redu_chi=====
71.98582
=====area_flux=====
0.9646
=====area_flux_f=====
0.8706
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 4 1 1600 3200 2049.696 0 0.929847 0.620299E-02 309.848 40.21824 1.87137 0.209851 11.0503 11.4503 0.9646 1600 3200 2072.976 0 0.929847 0.620299E-02 309.848 31.87584 9.50000 -1.00000 11.0503 11.4503 0.8706 71.98582 1
=====redu_chi=====
57.55297
=====best line=====
84.7253 0.300322
=====best sigma=====
10.8940 0.550433E-01
=====norm=====
0.135805 0.449535E-02
=====phoindx=====
0.898763 0.155884E-01
=====pow_norm=====
0.413465 0.247532E-01
=====best line=====
87.2875 0.324294
=====best sigma=====
11.5615 0.599799E-01
=====norm=====
0.135805 par
=====phoindx=====
0.899223 0.149870E-01
=====pow_norm=====
0.413465 par
=====redu_chi=====
2.446764
=====area_flux=====
0.8531
=====area_flux_f=====
0.8516
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 4 1 640 2000 1355.6048 0 0.135805 0.449535E-02 10.8940 0.550433E-01 0.898763 0.155884E-01 0.413465 0.247532E-01 0.8531 640 2000 1396.6 0 0.135805 0.449535E-02 11.5615 0.599799E-01 0.899223 0.149870E-01 0.413465 0.247532E-01 0.8516 2.446764 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:49 12-Jun-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 2.156 +/- 5.9396E-03
Net count rate (cts/s) for file 2 2.156 +/- 5.9396E-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 = 682732.1 using 168 PHA bins.
Reduced chi-squared = 4267.075 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11926.02 using 168 PHA bins.
Reduced chi-squared = 74.53762 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6177.91 -3 82.87 16.33 0.1554 1.068
0.5633 82.60 16.34 1.058
3730.12 -4 75.02 7.583 6.8333E-02 0.7906
0.2301 74.32 7.459 0.8034
1567.89 -2 75.62 13.69 0.1218 0.8421
0.2997 76.38 16.56 0.8395
1414.03 -1 75.50 9.346 0.1099 0.8383
0.3125 73.43 6.016 0.8400
805.233 -2 76.05 8.776 0.1126 0.8772
0.3629 74.72 8.943 0.8767
700.872 -2 76.01 9.510 0.1240 0.9104
0.4141 76.34 10.79 0.9108
632.020 -2 76.30 9.095 0.1191 0.9359
0.4662 76.58 9.863 0.9363
594.537 -2 76.32 9.337 0.1224 0.9568
0.5097 76.71 9.528 0.9575
574.506 -2 76.45 9.309 0.1229 0.9733
0.5478 76.81 9.614 0.9743
562.232 -2 76.52 9.337 0.1233 0.9864
0.5800 76.88 9.606 0.9875
559.311 -3 76.71 9.379 0.1246 1.023
0.6689 77.09 9.647 1.024
543.553 -4 76.78 9.424 0.1253 1.036
0.7149 77.16 9.667 1.037
542.411 -5 76.80 9.429 0.1254 1.037
0.7187 77.16 9.666 1.038
542.410 -6 76.80 9.431 0.1254 1.036
0.7188 77.16 9.667 1.038
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.05E-06 | 0.00 0.00 -0.40 0.60 -0.39 0.00 0.00 0.57
1.48E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.78E-06 | 0.00 0.01 -0.92 -0.25 0.18 0.00 0.01 -0.26
1.32E-03 | 0.03 0.01 -0.01 -0.31 -0.90 0.03 0.01 -0.30
4.86E-02 | -0.13 -0.73 0.00 0.00 0.00 0.12 0.66 0.00
1.05E-01 | 0.29 -0.59 -0.01 0.00 0.01 0.37 -0.66 0.00
6.97E-02 | 0.91 -0.02 0.00 0.01 0.02 -0.35 0.22 0.01
7.38E-02 | 0.27 0.35 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 76.7978 +/- 0.269255 1
2 2 1 gaussian Sigma keV 9.43076 +/- 0.267461 1
3 3 1 gaussian norm 0.125390 +/- 0.319817E-02 1
4 4 2 powerlaw PhoIndex 1.03648 +/- 0.120900E-01 1
5 5 2 powerlaw norm 0.718766 +/- 0.347913E-01 1
6 6 3 gaussian LineE keV 77.1627 +/- 0.277674 2
7 7 3 gaussian Sigma keV 9.66668 +/- 0.275744 2
8 3 3 gaussian norm 0.125390 = par 3 2
9 8 4 powerlaw PhoIndex 1.03816 +/- 0.116025E-01 2
10 5 4 powerlaw norm 0.718766 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 542.4095 using 168 PHA bins.
Reduced chi-squared = 3.390060 for 160 degrees of freedom
Null hypothesis probability = 4.414E-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 ( 3.248) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.248) > 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 0.8193 photons ( 9.7466E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8144 photons ( 9.6944E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:49 12-Jun-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 5.254 +/- 9.2723E-03
Net count rate (cts/s) for file 2 5.254 +/- 9.2723E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.098 +/- 1.1012E-02( 59.0% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.098 +/- 1.1012E-02( 59.0% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 9647601. using 198 PHA bins.
Reduced chi-squared = 50776.85 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 61351.12 using 198 PHA bins.
Reduced chi-squared = 322.9006 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
31565.0 -3 117.2 18.79 0.3273 2.748
0.1343 114.1 18.80 2.699
10554.0 -2 113.3 19.20 0.9840 7.134
4.5113E-02 110.2 19.17 9.308
10481.6 -1 114.1 19.36 1.008 9.387
5.7384E-03 111.3 19.34 9.478
10426.6 -1 114.6 19.37 0.9970 9.449
1.4433E-03 111.7 19.36 9.495
10405.2 -1 115.0 19.37 0.9881 9.476
5.5266E-04 112.0 19.36 9.499
10384.8 -1 115.2 19.37 0.9808 9.498
4.1545E-05 112.2 19.36 9.500
10146.9 0 115.6 19.37 0.9676 9.499
2.8567E-06 112.1 19.13 9.500
10071.6 0 116.0 19.37 0.9582 9.500
5.0026E-07 112.2 19.06 9.500
10026.7 0 116.2 19.37 0.9513 9.500
2.0710E-07 112.4 18.99 9.500
9998.69 0 116.4 19.37 0.9458 9.500
6.1093E-08 112.5 18.94 9.500
9910.81 0 116.7 19.37 0.9372 9.500
9.0213E-10 112.7 18.72 9.500
9885.01 0 116.9 19.37 0.9303 9.500
7.2412E-11 113.0 18.61 9.500
9878.72 0 116.9 19.37 0.9278 9.500
2.2738E-11 113.1 18.58 9.500
9872.27 0 116.9 19.37 0.9257 9.500
1.0361E-11 113.2 18.54 9.500
9867.95 0 117.0 19.37 0.9241 9.500
4.1690E-12 113.2 18.51 9.500
9864.53 0 117.0 19.37 0.9229 9.500
1.0722E-12 113.3 18.49 9.500
9860.96 0 117.0 19.37 0.9217 9.500
3.0042E-13 113.4 18.46 9.500
Fit parameter 5 has pegged
9845.57 -1 116.6 19.37 0.9164 9.500
0.000 113.4 17.74 9.500
Fit parameter 5 has pegged
9833.91 -1 116.4 19.37 0.9203 9.500
0.000 113.4 18.11 9.500
Fit parameter 5 has pegged
9820.44 0 116.6 19.37 0.9174 9.500
0.000 113.4 18.07 9.500
Fit parameter 5 has pegged
9812.25 0 116.7 19.37 0.9150 9.500
0.000 113.4 18.05 9.500
Fit parameter 5 has pegged
9807.18 0 116.8 19.37 0.9132 9.500
0.000 113.4 18.04 9.500
Fit parameter 5 has pegged
9803.93 0 116.9 19.37 0.9118 9.500
0.000 113.5 18.02 9.500
Fit parameter 5 has pegged
9801.73 0 116.9 19.37 0.9107 9.500
0.000 113.5 18.01 9.500
Fit parameter 5 has pegged
9800.20 0 117.0 19.37 0.9099 9.500
0.000 113.5 18.00 9.500
Fit parameter 5 has pegged
9798.82 0 117.0 19.37 0.9091 9.500
0.000 113.6 17.99 9.500
Fit parameter 5 has pegged
9798.02 0 117.0 19.37 0.9085 9.500
0.000 113.6 17.98 9.500
Fit parameter 5 has pegged
9797.48 0 117.0 19.37 0.9081 9.500
0.000 113.6 17.98 9.500
Fit parameter 5 has pegged
9796.94 0 117.0 19.37 0.9077 9.500
0.000 113.6 17.97 9.500
Fit parameter 5 has pegged
9796.62 0 117.0 19.37 0.9074 9.500
0.000 113.6 17.97 9.500
Fit parameter 5 has pegged
9796.42 0 117.0 19.37 0.9072 9.500
0.000 113.7 17.96 9.500
Fit parameter 5 has pegged
9796.42 0 117.0 19.37 0.9071 9.500
0.000 113.7 17.96 9.500
9795.52 0 117.1 19.37 0.9067 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9794.93 0 117.1 19.37 0.9065 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9794.38 0 117.1 19.37 0.9062 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9793.89 0 117.1 19.37 0.9060 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9793.41 0 117.1 19.37 0.9058 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9793.08 0 117.1 19.37 0.9056 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9792.69 0 117.2 19.37 0.9053 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9792.40 0 117.2 19.37 0.9051 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9792.13 0 117.2 19.37 0.9050 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9791.87 0 117.2 19.37 0.9048 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9791.61 0 117.2 19.37 0.9046 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9791.42 0 117.2 19.37 0.9044 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9791.21 0 117.2 19.37 0.9042 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9791.03 0 117.2 19.37 0.9041 9.500
0.000 113.7 17.95 9.500
Fit parameter 5 has pegged
9790.93 0 117.3 19.37 0.9039 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9790.75 0 117.3 19.37 0.9038 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9790.63 0 117.3 19.37 0.9036 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9790.54 0 117.3 19.37 0.9035 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9790.46 0 117.3 19.37 0.9034 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9790.30 0 117.3 19.37 0.9033 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9790.20 0 117.3 19.37 0.9031 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9790.13 0 117.3 19.37 0.9030 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9790.08 0 117.3 19.37 0.9029 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9790.02 0 117.3 19.37 0.9028 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9789.93 0 117.3 19.37 0.9027 9.500
0.000 113.7 17.94 9.500
Fit parameter 5 has pegged
9789.87 0 117.3 19.37 0.9026 9.500
0.000 113.7 17.93 9.500
Fit parameter 5 has pegged
9789.80 0 117.3 19.37 0.9025 9.500
0.000 113.7 17.93 9.500
Fit parameter 5 has pegged
9789.76 0 117.3 19.37 0.9024 9.500
0.000 113.7 17.93 9.500
Fit parameter 5 has pegged
9789.69 0 117.3 19.37 0.9023 9.500
0.000 113.7 17.93 9.500
Fit parameter 5 has pegged
9789.64 0 117.3 19.37 0.9022 9.500
0.000 113.7 17.93 9.500
Fit parameter 5 has pegged
9789.60 0 117.3 19.37 0.9022 9.500
0.000 113.7 17.93 9.500
Fit parameter 5 has pegged
9789.60 4 117.3 19.37 0.9022 9.500
0.000 113.7 17.93 9.500
9789.58 0 117.3 19.37 0.9021 9.500
0.000 113.7 17.93 9.500
Fit parameter 5 has pegged
9789.50 0 117.3 19.37 0.9020 9.500
0.000 113.7 17.93 9.500
Fit parameter 5 has pegged
9789.42 0 117.3 19.37 0.9019 9.500
0.000 113.8 17.93 9.500
Fit parameter 5 has pegged
9789.42 3 117.3 19.37 0.9019 9.500
0.000 113.8 17.93 9.500
9789.41 6 117.4 19.37 0.9019 9.500
0.000 113.8 17.94 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.52E-05 | -0.01 0.00 -1.00 -0.01 0.01
8.76E-03 | 0.00 0.00 0.00 -0.58 -0.81
2.39E-02 | -0.98 -0.07 0.00 0.17 -0.12
5.32E-02 | 0.20 0.05 -0.01 0.80 -0.57
3.28E+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 117.356 +/- 0.211503 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.80411 1
3 3 1 gaussian norm 0.901888 +/- 0.546119E-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 113.761 +/- 0.201399 2
7 7 3 gaussian Sigma keV 17.9354 +/- 0.157485 2
8 3 3 gaussian norm 0.901888 = 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 = 9789.414 using 198 PHA bins.
Reduced chi-squared = 51.52323 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 ( 49.692) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 49.692) > 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 0.7349 photons ( 1.4565E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7021 photons ( 1.3567E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:50 12-Jun-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 2.156 +/- 5.9396E-03
Net count rate (cts/s) for file 2 2.156 +/- 5.9396E-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 = 785469.8 using 168 PHA bins.
Reduced chi-squared = 4909.186 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18347.23 using 168 PHA bins.
Reduced chi-squared = 114.6702 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
12270.6 -3 85.72 14.08 0.1127 1.119
0.6218 85.48 13.86 1.105
2255.55 -4 72.67 16.17 0.1524 0.9911
0.6394 72.26 15.73 0.9998
1834.32 -2 81.63 5.618 4.3096E-02 1.017
0.7164 80.91 6.799 1.017
1648.89 -3 77.09 16.92 0.1026 1.043
0.7582 76.04 15.67 1.044
696.573 0 77.90 7.159 0.1115 1.044
0.7532 77.41 9.041 1.045
546.701 -1 77.00 9.246 0.1206 1.045
0.7496 77.27 9.516 1.046
543.041 -2 76.78 9.541 0.1263 1.044
0.7406 77.19 9.739 1.046
542.507 -3 76.84 9.396 0.1251 1.038
0.7252 77.18 9.641 1.040
542.423 -4 76.79 9.451 0.1256 1.037
0.7190 77.16 9.679 1.038
542.411 -5 76.80 9.422 0.1253 1.036
0.7189 77.16 9.661 1.038
542.409 -6 76.80 9.434 0.1254 1.036
0.7188 77.16 9.669 1.038
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.05E-06 | 0.00 0.00 -0.40 0.60 -0.39 0.00 0.00 0.57
1.48E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.78E-06 | 0.00 0.01 -0.92 -0.25 0.18 0.00 0.01 -0.26
1.32E-03 | 0.03 0.01 -0.01 -0.31 -0.90 0.03 0.01 -0.30
4.86E-02 | -0.13 -0.73 0.00 0.00 0.00 0.12 0.66 0.00
1.05E-01 | 0.29 -0.59 -0.01 0.00 0.01 0.37 -0.66 0.00
6.96E-02 | 0.91 -0.02 0.00 0.01 0.02 -0.35 0.22 0.01
7.38E-02 | 0.27 0.35 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 76.7960 +/- 0.269088 1
2 2 1 gaussian Sigma keV 9.43424 +/- 0.267271 1
3 3 1 gaussian norm 0.125419 +/- 0.319590E-02 1
4 4 2 powerlaw PhoIndex 1.03649 +/- 0.120862E-01 1
5 5 2 powerlaw norm 0.718752 +/- 0.347865E-01 1
6 6 3 gaussian LineE keV 77.1623 +/- 0.277590 2
7 7 3 gaussian Sigma keV 9.66886 +/- 0.275623 2
8 3 3 gaussian norm 0.125419 = par 3 2
9 8 4 powerlaw PhoIndex 1.03816 +/- 0.115989E-01 2
10 5 4 powerlaw norm 0.718752 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 542.4092 using 168 PHA bins.
Reduced chi-squared = 3.390057 for 160 degrees of freedom
Null hypothesis probability = 4.414E-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 ( 3.248) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.248) > 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 0.8193 photons ( 9.7467E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8144 photons ( 9.6944E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
74.53762
=====best line=====
76.7978 0.269255
=====best sigma=====
9.43076 0.267461
=====norm=====
0.125390 0.319817E-02
=====phoindx=====
1.03648 0.120900E-01
=====pow_norm=====
0.718766 0.347913E-01
=====best line=====
77.1627 0.277674
=====best sigma=====
9.66668 0.275744
=====norm=====
0.125390 par
=====phoindx=====
1.03816 0.116025E-01
=====pow_norm=====
0.718766 par
=====redu_chi=====
3.390060
=====area_flux=====
0.8193
=====area_flux_f=====
0.8144
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 5 1 640 2000 1228.7648 0 0.125390 0.319817E-02 9.43076 0.267461 1.03648 0.120900E-01 0.718766 0.347913E-01 0.8193 640 2000 1234.6032 0 0.125390 0.319817E-02 9.66668 0.275744 1.03816 0.116025E-01 0.718766 0.347913E-01 0.8144 3.390060 1
=====redu_chi=====
322.9006
=====best line=====
117.356 0.211503
=====best sigma=====
19.3655 1.80411
=====norm=====
0.901888 0.546119E-02
=====phoindx=====
9.50002 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.761 0.201399
=====best sigma=====
17.9354 0.157485
=====norm=====
0.901888 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
51.52323
=====area_flux=====
0.7349
=====area_flux_f=====
0.7021
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 5 1 1600 3200 1877.696 0 0.901888 0.546119E-02 309.848 28.86576 9.50002 -1.00000 0.00000 -1.00000 0.7349 1600 3200 1820.176 0 0.901888 0.546119E-02 286.9664 2.51976 9.50000 -1.00000 0.00000 -1.00000 0.7021 51.52323 1
=====redu_chi=====
114.6702
=====best line=====
76.7960 0.269088
=====best sigma=====
9.43424 0.267271
=====norm=====
0.125419 0.319590E-02
=====phoindx=====
1.03649 0.120862E-01
=====pow_norm=====
0.718752 0.347865E-01
=====best line=====
77.1623 0.277590
=====best sigma=====
9.66886 0.275623
=====norm=====
0.125419 par
=====phoindx=====
1.03816 0.115989E-01
=====pow_norm=====
0.718752 par
=====redu_chi=====
3.390057
=====area_flux=====
0.8193
=====area_flux_f=====
0.8144
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 5 1 640 2000 1228.736 0 0.125419 0.319590E-02 9.43424 0.267271 1.03649 0.120862E-01 0.718752 0.347865E-01 0.8193 640 2000 1234.5968 0 0.125419 0.319590E-02 9.66886 0.275623 1.03816 0.115989E-01 0.718752 0.347865E-01 0.8144 3.390057 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:50 12-Jun-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 2.141 +/- 5.9198E-03
Net count rate (cts/s) for file 2 2.141 +/- 5.9198E-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 = 584772.7 using 168 PHA bins.
Reduced chi-squared = 3654.829 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7928.098 using 168 PHA bins.
Reduced chi-squared = 49.55061 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1136.11 -3 84.25 15.94 0.1683 0.9149
0.4090 84.61 15.35 0.9105
585.368 -3 78.31 9.364 0.1097 0.8213
0.2959 79.95 9.357 0.8238
578.975 -3 78.31 11.54 0.1294 0.8537
0.3379 80.55 13.43 0.8524
449.645 -4 79.12 9.796 0.1138 0.8635
0.3632 81.15 9.522 0.8627
432.408 0 78.84 9.690 0.1176 0.8635
0.3628 80.96 9.697 0.8631
425.433 0 78.69 9.695 0.1202 0.8637
0.3624 80.85 9.830 0.8635
421.820 0 78.61 9.735 0.1220 0.8639
0.3619 80.79 9.932 0.8638
419.658 0 78.57 9.783 0.1235 0.8641
0.3616 80.75 10.08 0.8641
416.844 -1 78.50 10.13 0.1278 0.8648
0.3605 80.68 10.36 0.8649
416.141 -2 78.55 10.01 0.1291 0.8653
0.3607 80.67 10.32 0.8655
416.098 -3 78.53 10.12 0.1294 0.8664
0.3621 80.67 10.34 0.8665
416.096 -4 78.55 10.03 0.1293 0.8669
0.3629 80.68 10.33 0.8670
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.96E-07 | 0.00 0.00 -0.30 0.50 -0.65 0.00 0.00 0.48
1.42E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.03E-06 | 0.00 0.03 -0.95 -0.14 0.22 0.00 0.03 -0.15
5.09E-04 | 0.02 0.04 -0.02 -0.49 -0.72 0.02 0.08 -0.47
1.76E-03 | 0.00 -0.43 0.02 0.03 0.04 0.01 0.90 0.03
4.72E-03 | 0.02 0.90 0.04 0.04 0.05 0.01 0.42 0.04
9.39E-02 | -0.59 0.02 0.00 -0.01 -0.02 -0.81 0.01 -0.01
8.10E-02 | -0.81 0.01 0.00 0.00 0.00 0.59 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 78.5544 +/- 0.292324 1
2 2 1 gaussian Sigma keV 10.0312 +/- 0.648248E-01 1
3 3 1 gaussian norm 0.129305 +/- 0.355872E-02 1
4 4 2 powerlaw PhoIndex 0.866888 +/- 0.122501E-01 1
5 5 2 powerlaw norm 0.362914 +/- 0.176788E-01 1
6 6 3 gaussian LineE keV 80.6794 +/- 0.298898 2
7 7 3 gaussian Sigma keV 10.3340 +/- 0.479495E-01 2
8 3 3 gaussian norm 0.129305 = par 3 2
9 8 4 powerlaw PhoIndex 0.866970 +/- 0.117606E-01 2
10 5 4 powerlaw norm 0.362914 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 416.0963 using 168 PHA bins.
Reduced chi-squared = 2.600602 for 160 degrees of freedom
Null hypothesis probability = 1.083E-24
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 ( 2.492) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.492) > 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 0.8506 photons ( 1.0306E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8504 photons ( 1.0347E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:50 12-Jun-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 5.280 +/- 9.2953E-03
Net count rate (cts/s) for file 2 5.280 +/- 9.2953E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.138 +/- 1.1020E-02( 59.4% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.138 +/- 1.1020E-02( 59.4% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 5376815. using 198 PHA bins.
Reduced chi-squared = 28299.03 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 69773.91 using 198 PHA bins.
Reduced chi-squared = 367.2311 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
36371.4 -3 121.1 19.21 0.3799 2.884
0.2659 116.0 19.18 2.836
21020.5 -2 109.8 19.31 1.330 6.515
0.1058 110.9 19.32 7.472
20865.9 -1 110.3 19.36 1.337 9.112
1.0693E-02 111.2 19.34 9.262
18400.6 0 111.5 19.36 1.257 9.478
1.0204E-03 112.4 19.36 9.483
16699.4 0 112.8 19.37 1.204 9.492
9.9489E-05 113.7 19.36 9.499
15446.6 0 114.2 19.37 1.167 9.498
2.4171E-05 114.9 19.36 9.500
14538.9 0 115.4 19.37 1.140 9.500
2.3718E-06 116.0 19.37 9.500
13884.5 0 116.5 19.37 1.120 9.500
8.8350E-07 116.9 19.37 9.500
13419.8 0 117.4 19.37 1.104 9.500
8.9433E-08 117.6 19.37 9.500
13090.2 0 118.1 19.37 1.091 9.500
3.6705E-08 118.1 19.37 9.500
12860.6 0 118.7 19.37 1.081 9.500
9.0317E-09 118.5 19.37 9.500
12483.6 0 120.0 19.37 1.061 9.500
8.3651E-11 119.2 19.37 9.500
12416.3 0 120.2 19.37 1.057 9.500
4.0294E-11 119.3 19.37 9.500
12369.5 0 120.4 19.37 1.053 9.500
1.8578E-11 119.4 19.37 9.500
12334.5 0 120.6 19.37 1.051 9.500
7.5855E-12 119.5 19.37 9.500
12310.1 0 120.7 19.37 1.049 9.500
2.0998E-12 119.6 19.37 9.500
12285.5 0 120.8 19.37 1.047 9.500
6.9783E-13 119.6 19.37 9.500
12272.7 0 120.9 19.37 1.046 9.500
1.0866E-15 119.6 19.37 9.500
Fit parameter 5 has pegged
12237.2 0 121.0 19.37 1.041 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
12227.4 0 121.0 19.37 1.039 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
12222.9 0 121.0 19.37 1.039 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
12221.8 0 121.0 19.37 1.039 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
12219.7 0 121.0 19.37 1.038 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
12218.5 0 121.1 19.37 1.038 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
12217.8 0 121.1 19.37 1.038 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
12194.0 0 121.1 19.37 1.035 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
12172.4 0 121.2 19.37 1.032 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
12152.9 0 121.3 19.37 1.029 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
12135.3 0 121.4 19.37 1.027 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
12119.3 0 121.4 19.37 1.024 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
12104.8 0 121.5 19.37 1.022 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
12091.6 0 121.6 19.37 1.020 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
12079.5 0 121.6 19.37 1.018 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
12068.4 0 121.7 19.37 1.016 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
12058.4 0 121.7 19.37 1.015 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
12049.2 0 121.8 19.37 1.013 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
12040.8 0 121.9 19.37 1.012 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
12033.0 0 121.9 19.37 1.010 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
12025.9 0 122.0 19.37 1.009 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
12019.3 0 122.0 19.37 1.008 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
12013.2 0 122.1 19.37 1.007 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
12007.6 0 122.1 19.37 1.006 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
12002.6 0 122.2 19.37 1.005 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
11997.8 0 122.2 19.37 1.004 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
11993.5 0 122.2 19.37 1.003 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
11989.5 0 122.3 19.37 1.002 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
11985.7 0 122.3 19.37 1.001 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
11982.3 0 122.4 19.37 1.000 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
11979.1 0 122.4 19.37 0.9998 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
11976.2 0 122.4 19.37 0.9991 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
11973.4 0 122.5 19.37 0.9985 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
11970.9 0 122.5 19.37 0.9979 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
11968.5 0 122.5 19.37 0.9973 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11966.4 0 122.6 19.37 0.9968 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11964.4 0 122.6 19.37 0.9963 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11962.5 0 122.6 19.37 0.9958 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11960.7 0 122.6 19.37 0.9954 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11959.1 0 122.7 19.37 0.9950 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11957.6 0 122.7 19.37 0.9945 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11956.2 0 122.7 19.37 0.9942 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11954.9 0 122.7 19.37 0.9938 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11953.6 0 122.8 19.37 0.9935 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11952.5 0 122.8 19.37 0.9931 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11951.5 0 122.8 19.37 0.9928 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11950.5 0 122.8 19.37 0.9925 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11949.5 0 122.8 19.37 0.9922 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11948.7 0 122.8 19.37 0.9920 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11947.9 0 122.9 19.37 0.9917 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11947.1 0 122.9 19.37 0.9915 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11946.4 0 122.9 19.37 0.9912 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11945.7 0 122.9 19.37 0.9910 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11945.1 0 122.9 19.37 0.9908 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11944.5 0 122.9 19.37 0.9906 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11943.9 0 122.9 19.37 0.9904 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11943.4 0 123.0 19.37 0.9902 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11942.9 0 123.0 19.37 0.9901 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11942.5 0 123.0 19.37 0.9899 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11942.1 0 123.0 19.37 0.9897 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11941.6 0 123.0 19.37 0.9896 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11941.2 0 123.0 19.37 0.9894 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11940.9 0 123.0 19.37 0.9893 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11940.6 0 123.0 19.37 0.9892 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11940.2 0 123.0 19.37 0.9890 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11939.9 0 123.1 19.37 0.9889 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11939.6 0 123.1 19.37 0.9888 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11939.4 0 123.1 19.37 0.9887 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11939.1 0 123.1 19.37 0.9886 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11938.9 0 123.1 19.37 0.9885 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11938.7 0 123.1 19.37 0.9884 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11938.4 0 123.1 19.37 0.9883 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11938.3 0 123.1 19.37 0.9882 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11938.1 0 123.1 19.37 0.9882 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11937.9 0 123.1 19.37 0.9881 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11937.7 0 123.1 19.37 0.9880 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11937.6 0 123.1 19.37 0.9879 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11937.4 0 123.1 19.37 0.9879 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11937.3 0 123.1 19.37 0.9878 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11937.1 0 123.1 19.37 0.9877 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11937.0 0 123.1 19.37 0.9877 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.8 0 123.1 19.37 0.9876 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.7 0 123.2 19.37 0.9875 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.6 0 123.2 19.37 0.9875 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.5 0 123.2 19.37 0.9874 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.5 0 123.2 19.37 0.9874 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.3 0 123.2 19.37 0.9873 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.2 0 123.2 19.37 0.9873 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.1 0 123.2 19.37 0.9873 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.1 0 123.2 19.37 0.9872 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11936.0 0 123.2 19.37 0.9872 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.9 0 123.2 19.37 0.9872 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.9 0 123.2 19.37 0.9871 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.8 0 123.2 19.37 0.9871 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.7 0 123.2 19.37 0.9871 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.7 0 123.2 19.37 0.9870 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.6 0 123.2 19.37 0.9870 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.6 0 123.2 19.37 0.9870 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.5 0 123.2 19.37 0.9870 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.4 0 123.2 19.37 0.9869 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.4 0 123.2 19.37 0.9869 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.3 0 123.2 19.37 0.9869 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.3 0 123.2 19.37 0.9869 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.3 0 123.2 19.37 0.9868 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.2 1 123.2 19.37 0.9868 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.2 0 123.2 19.37 0.9868 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.2 0 123.2 19.37 0.9868 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.1 0 123.2 19.37 0.9867 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.1 0 123.2 19.37 0.9867 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.1 0 123.2 19.37 0.9867 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.0 0 123.2 19.37 0.9867 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.0 0 123.2 19.37 0.9867 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.0 0 123.2 19.37 0.9867 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11935.0 0 123.2 19.37 0.9867 9.500
0.000 120.4 19.37 9.500
11934.9 0 123.2 19.37 0.9867 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.8 0 123.2 19.37 0.9866 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.8 0 123.2 19.37 0.9866 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.8 1 123.2 19.37 0.9866 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.7 0 123.2 19.37 0.9866 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.7 0 123.2 19.37 0.9866 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.7 0 123.2 19.37 0.9866 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.7 0 123.2 19.37 0.9865 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.6 1 123.2 19.37 0.9865 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.6 0 123.2 19.37 0.9865 9.500
0.000 120.4 19.37 9.500
11934.6 1 123.2 19.37 0.9865 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.5 1 123.2 19.37 0.9864 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.4 1 123.2 19.37 0.9864 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.4 1 123.2 19.37 0.9864 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.4 0 123.2 19.37 0.9863 9.500
0.000 120.4 19.37 9.500
11934.3 1 123.2 19.37 0.9863 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.3 0 123.2 19.37 0.9863 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.2 0 123.2 19.37 0.9863 9.500
0.000 120.4 19.37 9.500
11934.2 0 123.2 19.37 0.9862 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.2 1 123.2 19.37 0.9862 9.500
0.000 120.4 19.37 9.500
11934.1 1 123.2 19.37 0.9862 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.1 0 123.2 19.37 0.9862 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.0 1 123.2 19.37 0.9862 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11934.0 4 123.2 19.37 0.9862 9.500
0.000 120.4 19.37 9.500
11934.0 5 123.2 19.37 0.9862 9.500
0.000 120.4 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.56E-05 | 0.00 0.00 -1.00 -0.01 0.00
2.02E-02 | 0.21 0.00 0.00 -0.98 -0.07
2.48E-02 | -0.98 -0.04 0.01 -0.21 -0.02
4.58E+00 | -0.04 0.94 0.00 -0.03 0.35
2.44E+00 | 0.00 -0.35 0.00 -0.06 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 123.250 +/- 0.174076 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.07720 1
3 3 1 gaussian norm 0.986152 +/- 0.510063E-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 120.406 +/- 0.184125 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.63783 2
8 3 3 gaussian norm 0.986152 = 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 = 11934.04 using 198 PHA bins.
Reduced chi-squared = 62.81075 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 ( 60.579) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 60.579) > 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 0.8727 photons ( 1.7826E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8421 photons ( 1.6945E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:51 12-Jun-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 2.141 +/- 5.9198E-03
Net count rate (cts/s) for file 2 2.141 +/- 5.9198E-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 = 663971.1 using 168 PHA bins.
Reduced chi-squared = 4149.819 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13816.52 using 168 PHA bins.
Reduced chi-squared = 86.35326 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1376.31 -3 86.39 13.71 0.1299 0.9195
0.4325 86.62 12.68 0.9130
719.224 -4 76.88 14.70 0.1420 0.8607
0.3408 79.14 12.93 0.8623
669.032 -5 81.33 8.738 9.6475E-02 0.8921
0.4106 81.97 9.520 0.8892
660.679 -1 78.72 13.72 0.1233 0.8918
0.4066 80.80 11.83 0.8916
457.607 -2 79.94 9.425 0.1185 0.8867
0.4006 81.12 9.852 0.8867
435.377 0 79.32 9.699 0.1209 0.8869
0.3999 81.00 9.914 0.8870
427.529 0 79.00 9.806 0.1231 0.8872
0.3993 80.94 9.993 0.8872
424.045 0 78.84 9.866 0.1247 0.8874
0.3987 80.90 10.08 0.8874
422.200 0 78.76 9.912 0.1260 0.8875
0.3983 80.87 10.15 0.8876
421.121 0 78.72 9.952 0.1270 0.8876
0.3979 80.86 10.20 0.8877
420.456 0 78.70 9.983 0.1279 0.8877
0.3975 80.84 10.24 0.8878
419.354 -1 78.66 10.21 0.1303 0.8876
0.3959 80.81 10.40 0.8877
418.039 -2 78.67 10.12 0.1308 0.8835
0.3890 80.78 10.40 0.8838
416.302 -3 78.58 10.09 0.1299 0.8715
0.3701 80.71 10.36 0.8720
416.080 -4 78.55 10.06 0.1294 0.8670
0.3633 80.68 10.34 0.8673
416.059 -5 78.54 10.07 0.1294 0.8668
0.3628 80.68 10.34 0.8670
416.059 2 78.54 10.07 0.1294 0.8668
0.3628 80.68 10.34 0.8670
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.97E-07 | 0.00 0.00 -0.30 0.50 -0.65 0.00 0.00 0.48
1.41E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.02E-06 | 0.00 0.02 -0.95 -0.14 0.22 0.00 0.03 -0.15
5.10E-04 | 0.02 0.04 -0.02 -0.49 -0.72 0.02 0.08 -0.47
1.81E-03 | 0.00 -0.37 0.02 0.03 0.04 0.01 0.93 0.04
5.42E-03 | 0.02 0.93 0.03 0.04 0.04 0.01 0.36 0.04
9.34E-02 | -0.56 0.02 0.00 -0.01 -0.02 -0.83 0.01 -0.01
8.03E-02 | -0.83 0.01 0.00 0.00 0.00 0.56 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 78.5413 +/- 0.290387 1
2 2 1 gaussian Sigma keV 10.0720 +/- 0.704121E-01 1
3 3 1 gaussian norm 0.129407 +/- 0.355185E-02 1
4 4 2 powerlaw PhoIndex 0.866844 +/- 0.122424E-01 1
5 5 2 powerlaw norm 0.362847 +/- 0.177029E-01 1
6 6 3 gaussian LineE keV 80.6779 +/- 0.298764 2
7 7 3 gaussian Sigma keV 10.3402 +/- 0.478978E-01 2
8 3 3 gaussian norm 0.129407 = par 3 2
9 8 4 powerlaw PhoIndex 0.866957 +/- 0.117534E-01 2
10 5 4 powerlaw norm 0.362847 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 416.0586 using 168 PHA bins.
Reduced chi-squared = 2.600366 for 160 degrees of freedom
Null hypothesis probability = 1.096E-24
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 ( 2.491) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.491) > 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 0.8507 photons ( 1.0307E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8504 photons ( 1.0347E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
49.55061
=====best line=====
78.5544 0.292324
=====best sigma=====
10.0312 0.648248E-01
=====norm=====
0.129305 0.355872E-02
=====phoindx=====
0.866888 0.122501E-01
=====pow_norm=====
0.362914 0.176788E-01
=====best line=====
80.6794 0.298898
=====best sigma=====
10.3340 0.479495E-01
=====norm=====
0.129305 par
=====phoindx=====
0.866970 0.117606E-01
=====pow_norm=====
0.362914 par
=====redu_chi=====
2.600602
=====area_flux=====
0.8506
=====area_flux_f=====
0.8504
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 6 1 640 2000 1256.8704 0 0.129305 0.355872E-02 10.0312 0.648248E-01 0.866888 0.122501E-01 0.362914 0.176788E-01 0.8506 640 2000 1290.8704 0 0.129305 0.355872E-02 10.3340 0.479495E-01 0.866970 0.117606E-01 0.362914 0.176788E-01 0.8504 2.600602 0
=====redu_chi=====
367.2311
=====best line=====
123.250 0.174076
=====best sigma=====
19.3655 2.07720
=====norm=====
0.986152 0.510063E-02
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
120.406 0.184125
=====best sigma=====
19.3655 1.63783
=====norm=====
0.986152 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
62.81075
=====area_flux=====
0.8727
=====area_flux_f=====
0.8421
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 6 1 1600 3200 1972 0 0.986152 0.510063E-02 309.848 33.2352 9.50001 -1.00000 0.00000 -1.00000 0.8727 1600 3200 1926.496 0 0.986152 0.510063E-02 309.848 26.20528 9.50000 -1.00000 0.00000 -1.00000 0.8421 62.81075 1
=====redu_chi=====
86.35326
=====best line=====
78.5413 0.290387
=====best sigma=====
10.0720 0.704121E-01
=====norm=====
0.129407 0.355185E-02
=====phoindx=====
0.866844 0.122424E-01
=====pow_norm=====
0.362847 0.177029E-01
=====best line=====
80.6779 0.298764
=====best sigma=====
10.3402 0.478978E-01
=====norm=====
0.129407 par
=====phoindx=====
0.866957 0.117534E-01
=====pow_norm=====
0.362847 par
=====redu_chi=====
2.600366
=====area_flux=====
0.8507
=====area_flux_f=====
0.8504
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 6 1 640 2000 1256.6608 0 0.129407 0.355185E-02 10.0720 0.704121E-01 0.866844 0.122424E-01 0.362847 0.177029E-01 0.8507 640 2000 1290.8464 0 0.129407 0.355185E-02 10.3402 0.478978E-01 0.866957 0.117534E-01 0.362847 0.177029E-01 0.8504 2.600366 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:51 12-Jun-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 3.654 +/- 7.7331E-03
Net count rate (cts/s) for file 2 3.654 +/- 7.7331E-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 = 202106.0 using 168 PHA bins.
Reduced chi-squared = 1263.162 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 22400.64 using 168 PHA bins.
Reduced chi-squared = 140.0040 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5014.02 -3 84.70 17.46 0.3107 0.9113
0.7021 83.89 17.23 0.9052
3447.52 -3 67.94 19.13 0.6037 0.8814
0.4903 69.21 19.24 0.8851
2919.80 -2 70.47 3.830 0.1086 0.7941
0.5309 73.95 8.862 0.7930
1415.87 -3 69.01 6.751 0.1507 0.7385
0.3761 69.66 7.639 0.7417
790.534 -4 65.67 9.722 0.2150 0.6722
0.2723 70.55 9.911 0.6755
515.987 -5 65.93 8.385 0.2207 0.6633
0.2705 70.65 9.475 0.6639
512.554 -6 65.60 8.641 0.2245 0.6572
0.2628 70.54 9.632 0.6582
512.320 -7 65.66 8.553 0.2230 0.6595
0.2653 70.58 9.577 0.6601
512.293 -8 65.64 8.572 0.2234 0.6587
0.2645 70.56 9.592 0.6595
512.290 -9 65.64 8.566 0.2233 0.6589
0.2648 70.57 9.588 0.6596
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
2.94E-07 | 0.00 0.00 -0.13 0.45 -0.78 0.00 0.00 0.42
7.79E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.83E-06 | 0.00 0.01 -0.99 -0.08 0.07 0.00 0.01 -0.09
2.14E-04 | 0.02 -0.02 0.05 -0.56 -0.62 0.02 -0.01 -0.54
2.59E-02 | -0.18 -0.82 0.00 0.00 0.00 0.01 0.54 0.00
3.42E-02 | 0.94 -0.01 0.00 0.01 0.01 -0.13 0.31 0.01
7.22E-02 | 0.28 -0.49 -0.01 0.02 0.02 0.49 -0.66 0.02
4.27E-02 | 0.02 -0.29 -0.01 0.00 0.00 -0.86 -0.42 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 65.6424 +/- 0.192374 1
2 2 1 gaussian Sigma keV 8.56574 +/- 0.195640 1
3 3 1 gaussian norm 0.223297 +/- 0.482879E-02 1
4 4 2 powerlaw PhoIndex 0.658925 +/- 0.962533E-02 1
5 5 2 powerlaw norm 0.264753 +/- 0.108642E-01 1
6 6 3 gaussian LineE keV 70.5678 +/- 0.222752 2
7 7 3 gaussian Sigma keV 9.58780 +/- 0.223569 2
8 3 3 gaussian norm 0.223297 = par 3 2
9 8 4 powerlaw PhoIndex 0.659646 +/- 0.920790E-02 2
10 5 4 powerlaw norm 0.264753 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 512.2902 using 168 PHA bins.
Reduced chi-squared = 3.201813 for 160 degrees of freedom
Null hypothesis probability = 1.720E-38
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 ( 3.068) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.068) > 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 1.504 photons ( 1.8087E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.500 photons ( 1.8214E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:51 12-Jun-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 9.065 +/- 1.2180E-02
Net count rate (cts/s) for file 2 9.065 +/- 1.2180E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.411 +/- 1.4427E-02( 59.7% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.411 +/- 1.4427E-02( 59.7% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.1401411E+07 using 198 PHA bins.
Reduced chi-squared = 60007.43 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 92508.10 using 198 PHA bins.
Reduced chi-squared = 486.8847 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
54903.1 -3 102.7 19.06 0.6009 2.644
9.6086E-02 102.1 19.08 2.597
48718.4 0 123.6 19.32 1.111 6.130
3.3401E-02 115.9 8.215 8.735
39830.0 0 123.1 18.88 1.090 8.542
8.4228E-03 115.8 8.648 9.299
19008.1 0 121.2 14.20 1.091 9.309
2.8022E-03 115.2 15.43 2.765
14954.7 -1 118.8 17.16 1.378 9.431
8.1523E-04 113.4 15.69 6.753
14827.3 -2 116.7 17.81 1.454 9.468
4.0640E-04 112.2 16.33 9.105
14705.5 0 116.5 17.74 1.454 9.487
1.9137E-04 112.1 16.25 9.422
14692.8 0 116.4 17.77 1.455 9.496
4.2702E-05 112.0 16.24 9.479
14691.8 0 116.4 17.79 1.457 9.499
1.8023E-05 112.0 16.24 9.490
14666.5 0 116.3 17.78 1.456 9.500
5.3542E-06 112.0 16.21 9.498
14648.5 0 116.3 17.76 1.456 9.500
2.1398E-06 111.9 16.19 9.499
14635.6 0 116.3 17.75 1.455 9.500
5.4564E-07 111.9 16.17 9.500
14626.5 0 116.3 17.73 1.455 9.500
1.5125E-07 111.9 16.15 9.500
14619.7 0 116.3 17.73 1.455 9.500
5.3637E-08 111.8 16.14 9.500
14614.8 0 116.2 17.72 1.455 9.500
5.2547E-09 111.8 16.13 9.500
14604.9 0 116.2 17.70 1.454 9.500
3.0591E-10 111.8 16.10 9.500
14602.6 0 116.2 17.69 1.454 9.500
1.0498E-10 111.8 16.09 9.500
14601.0 0 116.2 17.69 1.454 9.500
5.0527E-12 111.8 16.08 9.500
14599.9 0 116.2 17.69 1.454 9.500
1.9437E-12 111.8 16.07 9.500
14599.0 0 116.2 17.68 1.453 9.500
3.9473E-13 111.8 16.07 9.500
14598.2 0 116.2 17.68 1.453 9.500
8.6355E-15 111.8 16.06 9.500
Fit parameter 5 has pegged
14594.5 0 116.1 17.66 1.452 9.500
0.000 111.7 16.02 9.500
Fit parameter 5 has pegged
14593.8 -1 116.2 17.64 1.449 9.500
0.000 111.8 15.98 9.500
Fit parameter 5 has pegged
14593.7 -2 116.2 17.63 1.448 9.500
0.000 111.8 15.97 9.500
Fit parameter 5 has pegged
14593.7 -3 116.2 17.63 1.447 9.500
0.000 111.8 15.97 9.500
Fit parameter 5 has pegged
14593.7 -2 116.2 17.63 1.447 9.500
0.000 111.8 15.97 9.500
14593.7 2 116.2 17.63 1.447 9.500
0.000 111.8 15.97 9.500
Fit parameter 5 has pegged
14593.7 3 116.2 17.63 1.447 9.500
0.000 111.8 15.97 9.500
14593.6 2 116.2 17.63 1.447 9.500
0.000 111.8 15.97 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.64E-05 | -0.01 0.01 -1.00 -0.02 0.03
4.85E-04 | 0.01 -0.01 0.03 0.15 0.99
3.41E-03 | -0.44 -0.90 0.00 -0.01 0.00
3.59E-02 | 0.75 -0.37 -0.02 0.54 -0.09
1.85E-02 | 0.50 -0.23 0.01 -0.83 0.12
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.204 +/- 0.159306 1
2 2 1 gaussian Sigma keV 17.6277 +/- 0.932207E-01 1
3 3 1 gaussian norm 1.44715 +/- 0.705811E-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 111.849 +/- 0.152264 2
7 7 3 gaussian Sigma keV 15.9689 +/- 0.322645E-01 2
8 3 3 gaussian norm 1.44715 = 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 = 14593.64 using 198 PHA bins.
Reduced chi-squared = 76.80865 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 ( 74.079) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 74.079) > 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 1.188 photons ( 2.3187E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.116 photons ( 2.1113E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:51 12-Jun-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 3.654 +/- 7.7331E-03
Net count rate (cts/s) for file 2 3.654 +/- 7.7331E-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 = 271102.5 using 168 PHA bins.
Reduced chi-squared = 1694.391 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 36832.29 using 168 PHA bins.
Reduced chi-squared = 230.2018 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
13201.3 -3 87.99 13.73 0.1159 0.7464
0.4913 87.01 13.87 0.7416
3897.43 -4 64.47 19.19 0.3548 0.8717
0.6028 61.40 19.01 0.8670
3560.64 0 65.03 18.98 0.3522 0.8717
0.6017 62.74 19.30 0.8673
3297.85 0 65.53 18.75 0.3503 0.8717
0.6008 63.98 19.36 0.8676
2774.66 0 68.18 8.715 0.3391 0.8709
0.5963 70.27 18.74 0.8691
2576.39 0 68.07 8.897 0.3344 0.8704
0.5965 70.65 18.33 0.8692
2255.79 0 67.51 9.641 0.3076 0.8668
0.5992 72.74 8.593 0.8681
1095.79 -1 67.21 9.188 0.2314 0.8537
0.6036 72.11 9.449 0.8540
846.482 -2 66.81 8.302 0.2063 0.8092
0.5054 71.74 9.177 0.8114
706.410 -2 66.31 8.326 0.2094 0.7762
0.4400 71.40 9.228 0.7780
628.746 -2 66.18 8.249 0.2100 0.7511
0.3963 71.24 9.212 0.7527
584.170 -2 66.04 8.307 0.2123 0.7319
0.3649 71.09 9.276 0.7333
557.298 -2 65.96 8.335 0.2139 0.7170
0.3422 70.99 9.316 0.7183
549.281 -3 65.70 8.557 0.2213 0.6734
0.2789 70.67 9.562 0.6760
512.462 -4 65.64 8.580 0.2235 0.6582
0.2641 70.56 9.602 0.6594
512.292 -5 65.64 8.565 0.2233 0.6590
0.2648 70.57 9.587 0.6597
512.291 -6 65.64 8.568 0.2233 0.6589
0.2647 70.57 9.589 0.6596
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
2.95E-07 | 0.00 0.00 -0.13 0.45 -0.78 0.00 0.00 0.42
7.79E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.82E-06 | 0.00 0.01 -0.99 -0.08 0.07 0.00 0.01 -0.09
2.14E-04 | 0.02 -0.02 0.05 -0.56 -0.62 0.02 -0.01 -0.54
2.58E-02 | -0.18 -0.82 0.00 0.00 0.00 0.01 0.54 0.00
3.42E-02 | 0.94 -0.01 0.00 0.01 0.01 -0.13 0.31 0.01
7.20E-02 | 0.28 -0.49 -0.01 0.02 0.02 0.49 -0.66 0.02
4.27E-02 | 0.02 -0.29 -0.01 0.00 0.00 -0.86 -0.42 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 65.6407 +/- 0.192246 1
2 2 1 gaussian Sigma keV 8.56772 +/- 0.195473 1
3 3 1 gaussian norm 0.223337 +/- 0.482315E-02 1
4 4 2 powerlaw PhoIndex 0.658861 +/- 0.961918E-02 1
5 5 2 powerlaw norm 0.264684 +/- 0.108653E-01 1
6 6 3 gaussian LineE keV 70.5668 +/- 0.222661 2
7 7 3 gaussian Sigma keV 9.58933 +/- 0.223428 2
8 3 3 gaussian norm 0.223337 = par 3 2
9 8 4 powerlaw PhoIndex 0.659592 +/- 0.920215E-02 2
10 5 4 powerlaw norm 0.264684 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 512.2909 using 168 PHA bins.
Reduced chi-squared = 3.201818 for 160 degrees of freedom
Null hypothesis probability = 1.719E-38
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 ( 3.068) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.068) > 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 1.504 photons ( 1.8088E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.500 photons ( 1.8214E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
140.0040
=====best line=====
65.6424 0.192374
=====best sigma=====
8.56574 0.195640
=====norm=====
0.223297 0.482879E-02
=====phoindx=====
0.658925 0.962533E-02
=====pow_norm=====
0.264753 0.108642E-01
=====best line=====
70.5678 0.222752
=====best sigma=====
9.58780 0.223569
=====norm=====
0.223297 par
=====phoindx=====
0.659646 0.920790E-02
=====pow_norm=====
0.264753 par
=====redu_chi=====
3.201813
=====area_flux=====
1.504
=====area_flux_f=====
1.500
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 7 1 640 2000 1050.2784 0 0.223297 0.482879E-02 8.56574 0.195640 0.658925 0.962533E-02 0.264753 0.108642E-01 1.504 640 2000 1129.0848 0 0.223297 0.482879E-02 9.58780 0.223569 0.659646 0.920790E-02 0.264753 0.108642E-01 1.500 3.201813 1
=====redu_chi=====
486.8847
=====best line=====
116.204 0.159306
=====best sigma=====
17.6277 0.932207E-01
=====norm=====
1.44715 0.705811E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.849 0.152264
=====best sigma=====
15.9689 0.322645E-01
=====norm=====
1.44715 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
76.80865
=====area_flux=====
1.188
=====area_flux_f=====
1.116
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 7 1 1600 3200 1859.264 0 1.44715 0.705811E-02 282.0432 1.4915312 9.50000 -1.00000 0.00000 -1.00000 1.188 1600 3200 1789.584 0 1.44715 0.705811E-02 255.5024 0.516232 9.50000 -1.00000 0.00000 -1.00000 1.116 76.80865 1
=====redu_chi=====
230.2018
=====best line=====
65.6407 0.192246
=====best sigma=====
8.56772 0.195473
=====norm=====
0.223337 0.482315E-02
=====phoindx=====
0.658861 0.961918E-02
=====pow_norm=====
0.264684 0.108653E-01
=====best line=====
70.5668 0.222661
=====best sigma=====
9.58933 0.223428
=====norm=====
0.223337 par
=====phoindx=====
0.659592 0.920215E-02
=====pow_norm=====
0.264684 par
=====redu_chi=====
3.201818
=====area_flux=====
1.504
=====area_flux_f=====
1.500
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 7 1 640 2000 1050.2512 0 0.223337 0.482315E-02 8.56772 0.195473 0.658861 0.961918E-02 0.264684 0.108653E-01 1.504 640 2000 1129.0688 0 0.223337 0.482315E-02 9.58933 0.223428 0.659592 0.920215E-02 0.264684 0.108653E-01 1.500 3.201818 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:51 12-Jun-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 3.352 +/- 7.4068E-03
Net count rate (cts/s) for file 2 3.352 +/- 7.4068E-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 = 245575.1 using 168 PHA bins.
Reduced chi-squared = 1534.844 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16907.78 using 168 PHA bins.
Reduced chi-squared = 105.6736 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4531.10 -3 82.87 17.14 0.3333 1.009
0.7840 82.79 17.00 1.002
1541.23 -2 75.38 18.26 0.3538 0.9622
0.7602 75.85 17.84 0.9643
1260.28 0 75.72 14.37 0.3496 0.9628
0.7580 76.21 15.62 0.9642
819.248 -1 76.02 12.02 0.2707 0.9523
0.7776 77.01 11.09 0.9533
601.973 -2 75.75 9.956 0.2147 0.9225
0.7230 76.68 9.998 0.9239
553.884 -2 75.05 9.802 0.2169 0.9043
0.6672 76.36 9.970 0.9059
545.375 -3 74.77 9.536 0.2128 0.8539
0.5321 76.08 9.880 0.8568
496.306 -4 74.62 9.513 0.2123 0.8375
0.5044 75.96 9.773 0.8389
496.160 -5 74.62 9.490 0.2121 0.8376
0.5043 75.96 9.772 0.8385
496.160 -6 74.61 9.492 0.2122 0.8376
0.5042 75.96 9.773 0.8385
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.97E-07 | 0.00 0.00 -0.20 0.59 -0.54 0.00 0.00 0.56
8.99E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.07E-06 | 0.00 0.01 -0.98 -0.11 0.12 0.00 0.01 -0.12
4.62E-04 | 0.03 0.00 -0.01 -0.40 -0.83 0.03 0.00 -0.39
2.98E-02 | -0.12 -0.74 0.00 0.00 0.00 0.09 0.66 0.00
6.52E-02 | 0.30 -0.59 -0.01 0.00 0.01 0.37 -0.65 0.00
4.19E-02 | 0.89 -0.02 0.00 0.01 0.01 -0.40 0.21 0.01
4.50E-02 | 0.30 0.34 0.00 0.01 0.02 0.84 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 74.6121 +/- 0.210007 1
2 2 1 gaussian Sigma keV 9.49247 +/- 0.209245 1
3 3 1 gaussian norm 0.212174 +/- 0.418484E-02 1
4 4 2 powerlaw PhoIndex 0.837571 +/- 0.925725E-02 1
5 5 2 powerlaw norm 0.504177 +/- 0.190524E-01 1
6 6 3 gaussian LineE keV 75.9557 +/- 0.216978 2
7 7 3 gaussian Sigma keV 9.77305 +/- 0.216483 2
8 3 3 gaussian norm 0.212174 = par 3 2
9 8 4 powerlaw PhoIndex 0.838475 +/- 0.887936E-02 2
10 5 4 powerlaw norm 0.504177 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 496.1597 using 168 PHA bins.
Reduced chi-squared = 3.100998 for 160 degrees of freedom
Null hypothesis probability = 4.433E-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 ( 2.971) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.971) > 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 1.348 photons ( 1.6241E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.343 photons ( 1.6233E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:51 12-Jun-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 8.047 +/- 1.1476E-02
Net count rate (cts/s) for file 2 8.047 +/- 1.1476E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.695 +/- 1.3658E-02( 58.3% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.695 +/- 1.3658E-02( 58.3% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 8837608. using 198 PHA bins.
Reduced chi-squared = 46513.73 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 85217.07 using 198 PHA bins.
Reduced chi-squared = 448.5109 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
49283.9 -3 112.8 19.36 0.4843 2.809
0.1381 104.2 19.36 2.753
19958.2 -2 105.7 19.36 1.770 6.754
2.9377E-02 111.9 19.36 6.520
15545.3 -2 110.0 19.37 1.549 8.731
1.5735E-03 111.2 19.36 8.729
15022.5 -1 112.0 19.37 1.557 9.260
1.7218E-04 111.0 19.37 9.288
14830.4 -1 112.8 19.37 1.553 9.478
5.3111E-05 111.0 19.37 9.485
14699.4 -1 113.2 19.37 1.543 9.491
8.1997E-06 111.2 19.37 9.493
14653.5 -1 113.4 19.37 1.540 9.497
2.2068E-06 111.2 19.37 9.499
14602.9 -1 113.6 19.37 1.534 9.499
6.7024E-07 111.3 19.37 9.500
14571.4 -1 113.7 19.37 1.530 9.500
2.8718E-07 111.4 19.37 9.500
14561.2 -1 113.7 19.37 1.528 9.500
9.2036E-08 111.4 19.37 9.500
14531.5 -1 113.8 19.37 1.524 9.500
4.3461E-08 111.5 19.37 9.500
14527.0 -1 113.8 19.37 1.524 9.500
1.9231E-08 111.5 19.37 9.500
13933.2 0 115.1 19.37 1.448 9.500
2.8811E-11 111.9 19.17 9.500
13855.3 0 115.4 19.37 1.435 9.500
1.2347E-11 112.1 19.09 9.500
13798.4 0 115.6 19.37 1.425 9.500
4.1344E-12 112.3 19.02 9.500
13758.3 0 115.8 19.37 1.417 9.500
1.8165E-14 112.4 18.96 9.500
Fit parameter 5 has pegged
13622.5 0 115.9 19.37 1.399 9.500
0.000 112.5 18.51 9.500
Fit parameter 5 has pegged
13600.4 0 116.0 19.37 1.392 9.500
0.000 112.7 18.44 9.500
Fit parameter 5 has pegged
13583.0 0 116.0 19.37 1.386 9.500
0.000 112.9 18.38 9.500
Fit parameter 5 has pegged
13570.1 0 116.1 19.37 1.381 9.500
0.000 113.0 18.33 9.500
Fit parameter 5 has pegged
13559.8 0 116.1 19.37 1.377 9.500
0.000 113.1 18.29 9.500
Fit parameter 5 has pegged
13552.6 0 116.2 19.37 1.374 9.500
0.000 113.2 18.26 9.500
Fit parameter 5 has pegged
13546.9 0 116.2 19.37 1.372 9.500
0.000 113.3 18.23 9.500
Fit parameter 5 has pegged
13542.4 0 116.2 19.37 1.370 9.500
0.000 113.4 18.20 9.500
Fit parameter 5 has pegged
13538.6 0 116.2 19.37 1.368 9.500
0.000 113.5 18.18 9.500
Fit parameter 5 has pegged
13535.6 0 116.3 19.37 1.367 9.500
0.000 113.5 18.16 9.500
Fit parameter 5 has pegged
13532.5 0 116.3 19.37 1.365 9.500
0.000 113.5 18.15 9.500
Fit parameter 5 has pegged
13531.6 0 116.3 19.37 1.364 9.500
0.000 113.6 18.13 9.500
Fit parameter 5 has pegged
13529.9 0 116.3 19.37 1.363 9.500
0.000 113.6 18.12 9.500
Fit parameter 5 has pegged
13528.5 0 116.3 19.37 1.362 9.500
0.000 113.6 18.11 9.500
Fit parameter 5 has pegged
13527.7 0 116.3 19.37 1.362 9.500
0.000 113.7 18.11 9.500
Fit parameter 5 has pegged
13526.5 0 116.4 19.37 1.361 9.500
0.000 113.7 18.10 9.500
Fit parameter 5 has pegged
13525.9 0 116.4 19.37 1.361 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13524.2 0 116.4 19.37 1.360 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13522.6 0 116.4 19.37 1.360 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13521.2 0 116.5 19.37 1.359 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13519.9 0 116.5 19.37 1.359 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13518.8 0 116.5 19.37 1.358 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13517.7 0 116.5 19.37 1.358 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13516.8 0 116.6 19.37 1.357 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13516.0 0 116.6 19.37 1.357 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13515.2 0 116.6 19.37 1.356 9.500
0.000 113.7 18.09 9.500
Fit parameter 5 has pegged
13514.5 0 116.6 19.37 1.356 9.500
0.000 113.7 18.08 9.500
Fit parameter 5 has pegged
13513.9 0 116.6 19.37 1.356 9.500
0.000 113.7 18.08 9.500
Fit parameter 5 has pegged
13513.3 0 116.6 19.37 1.355 9.500
0.000 113.7 18.08 9.500
Fit parameter 5 has pegged
13512.8 0 116.7 19.37 1.355 9.500
0.000 113.7 18.08 9.500
Fit parameter 5 has pegged
13512.3 0 116.7 19.37 1.355 9.500
0.000 113.7 18.08 9.500
Fit parameter 5 has pegged
13512.0 0 116.7 19.37 1.354 9.500
0.000 113.7 18.08 9.500
Fit parameter 5 has pegged
13511.5 0 116.7 19.37 1.354 9.500
0.000 113.7 18.08 9.500
Fit parameter 5 has pegged
13511.2 0 116.7 19.37 1.354 9.500
0.000 113.7 18.08 9.500
Fit parameter 5 has pegged
13510.8 0 116.7 19.37 1.353 9.500
0.000 113.8 18.07 9.500
Fit parameter 5 has pegged
13510.5 0 116.7 19.37 1.353 9.500
0.000 113.8 18.07 9.500
Fit parameter 5 has pegged
13510.2 0 116.7 19.37 1.353 9.500
0.000 113.8 18.07 9.500
Fit parameter 5 has pegged
13510.0 0 116.7 19.37 1.352 9.500
0.000 113.8 18.07 9.500
Fit parameter 5 has pegged
13509.7 0 116.7 19.37 1.352 9.500
0.000 113.8 18.07 9.500
Fit parameter 5 has pegged
13509.5 0 116.8 19.37 1.352 9.500
0.000 113.8 18.07 9.500
Fit parameter 5 has pegged
13509.3 0 116.8 19.37 1.352 9.500
0.000 113.8 18.07 9.500
Fit parameter 5 has pegged
13509.1 0 116.8 19.37 1.351 9.500
0.000 113.8 18.06 9.500
Fit parameter 5 has pegged
13508.9 0 116.8 19.37 1.351 9.500
0.000 113.8 18.06 9.500
Fit parameter 5 has pegged
13508.7 0 116.8 19.37 1.351 9.500
0.000 113.8 18.06 9.500
Fit parameter 5 has pegged
13508.6 0 116.8 19.37 1.351 9.500
0.000 113.8 18.06 9.500
Fit parameter 5 has pegged
13508.4 0 116.8 19.37 1.351 9.500
0.000 113.8 18.06 9.500
Fit parameter 5 has pegged
13508.3 0 116.8 19.37 1.350 9.500
0.000 113.8 18.06 9.500
Fit parameter 5 has pegged
13508.2 0 116.8 19.37 1.350 9.500
0.000 113.8 18.06 9.500
Fit parameter 5 has pegged
13508.0 0 116.8 19.37 1.350 9.500
0.000 113.8 18.06 9.500
Fit parameter 5 has pegged
13507.9 0 116.8 19.37 1.350 9.500
0.000 113.8 18.05 9.500
Fit parameter 5 has pegged
13507.8 0 116.8 19.37 1.350 9.500
0.000 113.8 18.05 9.500
Fit parameter 5 has pegged
13507.7 0 116.8 19.37 1.350 9.500
0.000 113.8 18.05 9.500
Fit parameter 5 has pegged
13507.6 0 116.8 19.37 1.349 9.500
0.000 113.8 18.05 9.500
Fit parameter 5 has pegged
13507.5 0 116.8 19.37 1.349 9.500
0.000 113.8 18.05 9.500
Fit parameter 5 has pegged
13507.5 0 116.8 19.37 1.349 9.500
0.000 113.8 18.05 9.500
Fit parameter 5 has pegged
13507.4 0 116.8 19.37 1.349 9.500
0.000 113.8 18.05 9.500
Fit parameter 5 has pegged
13507.2 0 116.8 19.37 1.349 9.500
0.000 113.8 18.05 9.500
Fit parameter 5 has pegged
13507.2 0 116.8 19.37 1.349 9.500
0.000 113.8 18.04 9.500
Fit parameter 5 has pegged
13507.1 0 116.8 19.37 1.349 9.500
0.000 113.8 18.04 9.500
Fit parameter 5 has pegged
13507.1 0 116.8 19.37 1.349 9.500
0.000 113.8 18.04 9.500
Fit parameter 5 has pegged
13507.0 0 116.8 19.37 1.348 9.500
0.000 113.8 18.04 9.500
Fit parameter 5 has pegged
13506.9 0 116.8 19.37 1.348 9.500
0.000 113.8 18.04 9.500
Fit parameter 5 has pegged
13506.9 0 116.9 19.37 1.348 9.500
0.000 113.9 18.04 9.500
Fit parameter 5 has pegged
13506.8 0 116.9 19.37 1.348 9.500
0.000 113.9 18.04 9.500
Fit parameter 5 has pegged
13506.7 0 116.9 19.37 1.348 9.500
0.000 113.9 18.04 9.500
Fit parameter 5 has pegged
13506.7 0 116.9 19.37 1.348 9.500
0.000 113.9 18.04 9.500
Fit parameter 5 has pegged
13506.6 0 116.9 19.37 1.348 9.500
0.000 113.9 18.03 9.500
Fit parameter 5 has pegged
13506.5 0 116.9 19.37 1.348 9.500
0.000 113.9 18.03 9.500
Fit parameter 5 has pegged
13506.5 0 116.9 19.37 1.348 9.500
0.000 113.9 18.03 9.500
13506.4 0 116.9 19.37 1.347 9.500
0.000 113.9 18.04 9.500
Fit parameter 5 has pegged
13506.4 3 116.9 19.37 1.347 9.500
0.000 113.9 18.04 9.500
13506.4 3 116.9 19.37 1.347 9.500
0.000 113.9 18.04 9.500
Fit parameter 5 has pegged
13506.4 3 116.9 19.37 1.347 9.500
0.000 113.9 18.04 9.500
13506.4 4 116.9 19.37 1.347 9.500
0.000 113.9 18.04 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.46E-05 | -0.01 0.00 -1.00 -0.01 0.01
7.18E-03 | 0.01 0.00 0.00 -0.62 -0.79
1.81E-02 | -0.98 -0.07 0.01 0.15 -0.13
4.12E-02 | 0.20 0.05 -0.02 0.77 -0.60
2.36E+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 116.874 +/- 0.183334 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.53108 1
3 3 1 gaussian norm 1.34747 +/- 0.697793E-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 113.880 +/- 0.173218 2
7 7 3 gaussian Sigma keV 18.0352 +/- 0.145492 2
8 3 3 gaussian norm 1.34747 = 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 = 13506.38 using 198 PHA bins.
Reduced chi-squared = 71.08621 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 ( 68.560) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 68.560) > 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 1.089 photons ( 2.1532E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.050 photons ( 2.0312E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:52 12-Jun-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 3.352 +/- 7.4068E-03
Net count rate (cts/s) for file 2 3.352 +/- 7.4068E-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 = 310755.8 using 168 PHA bins.
Reduced chi-squared = 1942.224 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 28409.04 using 168 PHA bins.
Reduced chi-squared = 177.5565 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4092.68 -3 85.94 14.92 0.2047 0.9527
0.7363 85.68 14.54 0.9449
2034.24 -4 70.71 18.04 0.3120 0.8780
0.5268 71.46 17.50 0.8815
1129.85 0 73.51 13.00 0.3205 0.8759
0.5319 74.06 15.35 0.8780
601.642 -1 74.97 10.93 0.2457 0.8665
0.5525 76.22 9.941 0.8680
509.929 -2 75.02 9.913 0.2112 0.8578
0.5505 76.12 9.759 0.8588
496.917 -3 74.70 9.508 0.2124 0.8430
0.5163 75.99 9.782 0.8445
496.201 -4 74.62 9.506 0.2123 0.8376
0.5046 75.96 9.778 0.8387
496.160 -5 74.62 9.490 0.2121 0.8376
0.5043 75.96 9.771 0.8385
496.160 -6 74.61 9.492 0.2122 0.8376
0.5042 75.96 9.773 0.8385
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.97E-07 | 0.00 0.00 -0.20 0.59 -0.54 0.00 0.00 0.56
8.99E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.07E-06 | 0.00 0.01 -0.98 -0.11 0.12 0.00 0.01 -0.12
4.62E-04 | 0.03 0.00 -0.01 -0.40 -0.83 0.03 0.00 -0.39
2.98E-02 | -0.12 -0.74 0.00 0.00 0.00 0.09 0.66 0.00
6.52E-02 | 0.30 -0.59 -0.01 0.00 0.01 0.37 -0.65 0.00
4.19E-02 | 0.89 -0.02 0.00 0.01 0.01 -0.40 0.21 0.01
4.50E-02 | 0.31 0.34 0.00 0.01 0.02 0.83 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 74.6119 +/- 0.210017 1
2 2 1 gaussian Sigma keV 9.49228 +/- 0.209233 1
3 3 1 gaussian norm 0.212172 +/- 0.418443E-02 1
4 4 2 powerlaw PhoIndex 0.837568 +/- 0.925691E-02 1
5 5 2 powerlaw norm 0.504171 +/- 0.190513E-01 1
6 6 3 gaussian LineE keV 75.9556 +/- 0.216955 2
7 7 3 gaussian Sigma keV 9.77300 +/- 0.216463 2
8 3 3 gaussian norm 0.212172 = par 3 2
9 8 4 powerlaw PhoIndex 0.838472 +/- 0.887904E-02 2
10 5 4 powerlaw norm 0.504171 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 496.1600 using 168 PHA bins.
Reduced chi-squared = 3.101000 for 160 degrees of freedom
Null hypothesis probability = 4.433E-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 ( 2.971) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.971) > 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 1.348 photons ( 1.6241E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.343 photons ( 1.6233E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
105.6736
=====best line=====
74.6121 0.210007
=====best sigma=====
9.49247 0.209245
=====norm=====
0.212174 0.418484E-02
=====phoindx=====
0.837571 0.925725E-02
=====pow_norm=====
0.504177 0.190524E-01
=====best line=====
75.9557 0.216978
=====best sigma=====
9.77305 0.216483
=====norm=====
0.212174 par
=====phoindx=====
0.838475 0.887936E-02
=====pow_norm=====
0.504177 par
=====redu_chi=====
3.100998
=====area_flux=====
1.348
=====area_flux_f=====
1.343
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 8 1 640 2000 1193.7936 0 0.212174 0.418484E-02 9.49247 0.209245 0.837571 0.925725E-02 0.504177 0.190524E-01 1.348 640 2000 1215.2912 0 0.212174 0.418484E-02 9.77305 0.216483 0.838475 0.887936E-02 0.504177 0.190524E-01 1.343 3.100998 1
=====redu_chi=====
448.5109
=====best line=====
116.874 0.183334
=====best sigma=====
19.3655 1.53108
=====norm=====
1.34747 0.697793E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.880 0.173218
=====best sigma=====
18.0352 0.145492
=====norm=====
1.34747 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
71.08621
=====area_flux=====
1.089
=====area_flux_f=====
1.050
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 8 1 1600 3200 1869.984 0 1.34747 0.697793E-02 309.848 24.49728 9.50000 -1.00000 0.00000 -1.00000 1.089 1600 3200 1822.08 0 1.34747 0.697793E-02 288.5632 2.327872 9.50000 -1.00000 0.00000 -1.00000 1.050 71.08621 1
=====redu_chi=====
177.5565
=====best line=====
74.6119 0.210017
=====best sigma=====
9.49228 0.209233
=====norm=====
0.212172 0.418443E-02
=====phoindx=====
0.837568 0.925691E-02
=====pow_norm=====
0.504171 0.190513E-01
=====best line=====
75.9556 0.216955
=====best sigma=====
9.77300 0.216463
=====norm=====
0.212172 par
=====phoindx=====
0.838472 0.887904E-02
=====pow_norm=====
0.504171 par
=====redu_chi=====
3.101000
=====area_flux=====
1.348
=====area_flux_f=====
1.343
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 8 1 640 2000 1193.7904 0 0.212172 0.418443E-02 9.49228 0.209233 0.837568 0.925691E-02 0.504171 0.190513E-01 1.348 640 2000 1215.2896 0 0.212172 0.418443E-02 9.77300 0.216463 0.838472 0.887904E-02 0.504171 0.190513E-01 1.343 3.101000 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:52 12-Jun-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 2.089 +/- 5.8468E-03
Net count rate (cts/s) for file 2 2.089 +/- 5.8468E-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 = 642333.4 using 168 PHA bins.
Reduced chi-squared = 4014.584 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10501.68 using 168 PHA bins.
Reduced chi-squared = 65.63552 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3872.30 -3 83.02 16.73 0.1881 1.032
0.5186 83.27 16.53 1.023
937.539 -3 76.67 8.859 0.1125 0.8402
0.3078 77.57 8.927 0.8470
893.247 -4 76.71 9.067 0.1264 0.9256
0.4234 77.94 9.809 0.9216
601.380 -5 76.76 8.947 0.1252 0.9237
0.4514 78.03 9.524 0.9234
601.091 -6 76.74 9.014 0.1260 0.9234
0.4513 78.00 9.622 0.9236
601.077 -7 76.75 8.984 0.1257 0.9234
0.4513 78.01 9.588 0.9235
601.075 -8 76.74 8.997 0.1258 0.9234
0.4513 78.00 9.601 0.9235
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.34E-07 | 0.00 0.00 -0.34 0.54 -0.56 0.00 0.00 0.52
1.44E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.45E-06 | 0.00 0.01 -0.94 -0.18 0.21 0.00 0.01 -0.19
6.55E-04 | 0.02 0.01 -0.01 -0.44 -0.80 0.02 0.01 -0.42
4.53E-02 | -0.15 -0.78 0.00 0.00 0.00 0.08 0.60 0.00
6.24E-02 | 0.96 -0.03 0.00 0.01 0.01 -0.17 0.23 0.01
9.62E-02 | -0.22 0.54 0.01 0.00 0.00 -0.41 0.70 0.00
7.25E-02 | 0.09 0.31 0.00 0.01 0.02 0.89 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 76.7439 +/- 0.252435 1
2 2 1 gaussian Sigma keV 8.99707 +/- 0.250532 1
3 3 1 gaussian norm 0.125801 +/- 0.312406E-02 1
4 4 2 powerlaw PhoIndex 0.923382 +/- 0.118487E-01 1
5 5 2 powerlaw norm 0.451285 +/- 0.215129E-01 1
6 6 3 gaussian LineE keV 78.0034 +/- 0.275679 2
7 7 3 gaussian Sigma keV 9.60053 +/- 0.271827 2
8 3 3 gaussian norm 0.125801 = par 3 2
9 8 4 powerlaw PhoIndex 0.923512 +/- 0.113770E-01 2
10 5 4 powerlaw norm 0.451285 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 601.0748 using 168 PHA bins.
Reduced chi-squared = 3.756717 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 ( 3.599) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.599) > 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 0.8308 photons ( 9.9793E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8304 photons ( 9.9999E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:52 12-Jun-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 5.056 +/- 9.0965E-03
Net count rate (cts/s) for file 2 5.056 +/- 9.0965E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 2.967 +/- 1.0813E-02( 58.7% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 2.967 +/- 1.0813E-02( 58.7% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 8440353. using 198 PHA bins.
Reduced chi-squared = 44422.91 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 60428.98 using 198 PHA bins.
Reduced chi-squared = 318.0473 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
30498.6 -3 119.3 18.45 0.3315 2.792
0.1541 115.2 18.46 2.737
11414.3 -2 110.5 19.32 1.043 8.169
4.2540E-03 109.5 19.22 7.621
11162.2 -1 112.0 19.36 1.094 9.097
1.1649E-03 110.4 19.36 8.986
10897.8 -1 112.7 19.36 1.086 9.417
5.3100E-04 110.9 19.36 9.407
10645.3 -1 113.2 19.36 1.073 9.469
1.8371E-04 111.3 19.37 9.466
10457.5 -1 113.6 19.36 1.062 9.496
6.3984E-05 111.6 19.37 9.494
10326.9 -1 114.0 19.37 1.054 9.500
2.8189E-05 111.8 19.37 9.498
10227.3 -1 114.2 19.37 1.047 9.500
9.8179E-06 112.0 19.37 9.499
10154.3 -1 114.4 19.37 1.041 9.500
7.2510E-07 112.2 19.37 9.500
10095.7 -1 114.5 19.37 1.037 9.500
1.4813E-07 112.4 19.37 9.500
10077.8 -1 114.6 19.37 1.036 9.500
5.2290E-09 112.4 19.37 9.500
9582.14 0 116.1 19.37 0.9830 9.500
1.4452E-10 113.1 19.37 9.500
9521.04 0 116.5 19.37 0.9740 9.500
4.0940E-11 113.3 19.37 9.500
9478.12 0 116.7 19.37 0.9673 9.500
1.4960E-11 113.4 19.34 9.500
9445.18 0 116.9 19.37 0.9623 9.500
1.8522E-12 113.6 19.30 9.500
9419.95 0 117.1 19.37 0.9582 9.500
2.2233E-13 113.7 19.26 9.500
Fit parameter 5 has pegged
9356.13 0 117.3 19.37 0.9495 9.500
0.000 113.8 18.92 9.500
Fit parameter 5 has pegged
9341.82 0 117.3 19.37 0.9455 9.500
0.000 113.9 18.87 9.500
Fit parameter 5 has pegged
9330.99 0 117.4 19.37 0.9426 9.500
0.000 114.0 18.84 9.500
Fit parameter 5 has pegged
9322.63 0 117.5 19.37 0.9402 9.500
0.000 114.1 18.80 9.500
Fit parameter 5 has pegged
9316.40 0 117.5 19.37 0.9385 9.500
0.000 114.2 18.77 9.500
Fit parameter 5 has pegged
9311.45 0 117.5 19.37 0.9371 9.500
0.000 114.2 18.75 9.500
Fit parameter 5 has pegged
9307.06 0 117.6 19.37 0.9358 9.500
0.000 114.3 18.72 9.500
Fit parameter 5 has pegged
9303.43 0 117.6 19.37 0.9347 9.500
0.000 114.3 18.70 9.500
Fit parameter 5 has pegged
9300.38 0 117.6 19.37 0.9337 9.500
0.000 114.4 18.69 9.500
Fit parameter 5 has pegged
9298.86 0 117.6 19.37 0.9332 9.500
0.000 114.4 18.68 9.500
Fit parameter 5 has pegged
9296.60 0 117.7 19.37 0.9324 9.500
0.000 114.4 18.67 9.500
Fit parameter 5 has pegged
9295.48 0 117.7 19.37 0.9321 9.500
0.000 114.5 18.66 9.500
Fit parameter 5 has pegged
9294.70 0 117.7 19.37 0.9318 9.500
0.000 114.5 18.65 9.500
Fit parameter 5 has pegged
9293.60 0 117.7 19.37 0.9314 9.500
0.000 114.5 18.64 9.500
Fit parameter 5 has pegged
9292.57 0 117.7 19.37 0.9310 9.500
0.000 114.5 18.64 9.500
Fit parameter 5 has pegged
9291.65 0 117.7 19.37 0.9307 9.500
0.000 114.5 18.63 9.500
Fit parameter 5 has pegged
9291.35 0 117.7 19.37 0.9305 9.500
0.000 114.5 18.63 9.500
Fit parameter 5 has pegged
9290.65 0 117.7 19.37 0.9303 9.500
0.000 114.5 18.63 9.500
Fit parameter 5 has pegged
9290.11 0 117.7 19.37 0.9301 9.500
0.000 114.5 18.63 9.500
Fit parameter 5 has pegged
9289.88 0 117.7 19.37 0.9300 9.500
0.000 114.6 18.62 9.500
Fit parameter 5 has pegged
9286.62 0 117.8 19.37 0.9293 9.500
0.000 114.6 18.62 9.500
Fit parameter 5 has pegged
9283.64 0 117.8 19.37 0.9286 9.500
0.000 114.6 18.62 9.500
Fit parameter 5 has pegged
9280.99 0 117.9 19.37 0.9279 9.500
0.000 114.6 18.62 9.500
Fit parameter 5 has pegged
9278.52 0 117.9 19.37 0.9273 9.500
0.000 114.6 18.62 9.500
Fit parameter 5 has pegged
9276.25 0 117.9 19.37 0.9267 9.500
0.000 114.6 18.62 9.500
Fit parameter 5 has pegged
9274.29 0 118.0 19.37 0.9261 9.500
0.000 114.6 18.62 9.500
Fit parameter 5 has pegged
9272.49 0 118.0 19.37 0.9255 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
9270.84 0 118.0 19.37 0.9250 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
9269.35 0 118.1 19.37 0.9245 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
9267.94 0 118.1 19.37 0.9240 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
9266.73 0 118.1 19.37 0.9236 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
9265.58 0 118.2 19.37 0.9231 9.500
0.000 114.6 18.61 9.500
Fit parameter 5 has pegged
9264.53 0 118.2 19.37 0.9227 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
9263.53 0 118.2 19.37 0.9223 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
9262.58 0 118.2 19.37 0.9219 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
9261.84 0 118.2 19.37 0.9216 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
9261.06 0 118.3 19.37 0.9212 9.500
0.000 114.6 18.60 9.500
Fit parameter 5 has pegged
9260.39 0 118.3 19.37 0.9209 9.500
0.000 114.6 18.59 9.500
Fit parameter 5 has pegged
9259.74 0 118.3 19.37 0.9206 9.500
0.000 114.6 18.59 9.500
Fit parameter 5 has pegged
9259.14 0 118.3 19.37 0.9202 9.500
0.000 114.6 18.59 9.500
Fit parameter 5 has pegged
9258.58 0 118.3 19.37 0.9200 9.500
0.000 114.7 18.59 9.500
Fit parameter 5 has pegged
9258.10 0 118.3 19.37 0.9197 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
9257.61 0 118.4 19.37 0.9194 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
9257.19 0 118.4 19.37 0.9191 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
9256.78 0 118.4 19.37 0.9189 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
9256.34 0 118.4 19.37 0.9186 9.500
0.000 114.7 18.58 9.500
Fit parameter 5 has pegged
9256.01 0 118.4 19.37 0.9184 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
9255.66 0 118.4 19.37 0.9182 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
9255.34 0 118.4 19.37 0.9180 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
9255.05 0 118.4 19.37 0.9177 9.500
0.000 114.7 18.57 9.500
Fit parameter 5 has pegged
9254.75 0 118.5 19.37 0.9175 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
9254.51 0 118.5 19.37 0.9174 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
9254.24 0 118.5 19.37 0.9172 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
9253.98 0 118.5 19.37 0.9170 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
9253.79 0 118.5 19.37 0.9168 9.500
0.000 114.7 18.56 9.500
Fit parameter 5 has pegged
9253.58 0 118.5 19.37 0.9166 9.500
0.000 114.7 18.55 9.500
Fit parameter 5 has pegged
9253.42 0 118.5 19.37 0.9165 9.500
0.000 114.7 18.55 9.500
Fit parameter 5 has pegged
9253.22 0 118.5 19.37 0.9163 9.500
0.000 114.8 18.55 9.500
Fit parameter 5 has pegged
9253.02 0 118.5 19.37 0.9162 9.500
0.000 114.8 18.55 9.500
Fit parameter 5 has pegged
9252.84 0 118.5 19.37 0.9160 9.500
0.000 114.8 18.55 9.500
Fit parameter 5 has pegged
9252.74 0 118.5 19.37 0.9159 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
9252.59 0 118.5 19.37 0.9157 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
9252.42 0 118.5 19.37 0.9156 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
9252.30 0 118.5 19.37 0.9155 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
9252.17 0 118.5 19.37 0.9154 9.500
0.000 114.8 18.54 9.500
Fit parameter 5 has pegged
9252.06 0 118.5 19.37 0.9152 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
9251.95 0 118.5 19.37 0.9151 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
9251.79 0 118.5 19.37 0.9150 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
9251.71 0 118.6 19.37 0.9149 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
9251.64 0 118.6 19.37 0.9148 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
9251.53 0 118.6 19.37 0.9147 9.500
0.000 114.8 18.53 9.500
Fit parameter 5 has pegged
9251.40 0 118.6 19.37 0.9146 9.500
0.000 114.8 18.52 9.500
Fit parameter 5 has pegged
9251.37 0 118.6 19.37 0.9145 9.500
0.000 114.8 18.52 9.500
Fit parameter 5 has pegged
9251.24 0 118.6 19.37 0.9144 9.500
0.000 114.8 18.52 9.500
Fit parameter 5 has pegged
9251.16 0 118.6 19.37 0.9143 9.500
0.000 114.8 18.52 9.500
Fit parameter 5 has pegged
9251.10 0 118.6 19.37 0.9142 9.500
0.000 114.8 18.52 9.500
Fit parameter 5 has pegged
9251.02 0 118.6 19.37 0.9141 9.500
0.000 114.8 18.52 9.500
Fit parameter 5 has pegged
9250.94 0 118.6 19.37 0.9140 9.500
0.000 114.8 18.51 9.500
Fit parameter 5 has pegged
9250.89 0 118.6 19.37 0.9140 9.500
0.000 114.8 18.51 9.500
Fit parameter 5 has pegged
9250.86 0 118.6 19.37 0.9139 9.500
0.000 114.9 18.51 9.500
Fit parameter 5 has pegged
9250.75 0 118.6 19.37 0.9138 9.500
0.000 114.9 18.51 9.500
Fit parameter 5 has pegged
9250.68 0 118.6 19.37 0.9137 9.500
0.000 114.9 18.51 9.500
Fit parameter 5 has pegged
9250.60 0 118.6 19.37 0.9137 9.500
0.000 114.9 18.51 9.500
Fit parameter 5 has pegged
9250.60 4 118.6 19.37 0.9137 9.500
0.000 114.9 18.51 9.500
9250.55 0 118.6 19.37 0.9136 9.500
0.000 114.9 18.51 9.500
Fit parameter 5 has pegged
9250.42 0 118.6 19.37 0.9135 9.500
0.000 114.9 18.51 9.500
Fit parameter 5 has pegged
9250.42 4 118.6 19.37 0.9135 9.500
0.000 114.9 18.51 9.500
9250.42 6 118.6 19.37 0.9135 9.500
0.000 114.9 18.51 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.56E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.70E-02 | 0.11 0.00 0.00 -0.87 -0.48
2.60E-02 | -0.99 -0.06 0.01 -0.06 -0.13
1.12E-01 | 0.08 0.06 -0.01 0.48 -0.87
3.67E+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 118.600 +/- 0.206321 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.91004 1
3 3 1 gaussian norm 0.913489 +/- 0.546337E-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 114.877 +/- 0.206676 2
7 7 3 gaussian Sigma keV 18.5074 +/- 0.308315 2
8 3 3 gaussian norm 0.913489 = 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 = 9250.423 using 198 PHA bins.
Reduced chi-squared = 48.68644 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 ( 46.956) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 46.956) > 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 0.7596 photons ( 1.5146E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7209 photons ( 1.4051E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:53 12-Jun-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 2.089 +/- 5.8468E-03
Net count rate (cts/s) for file 2 2.089 +/- 5.8468E-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 = 741430.2 using 168 PHA bins.
Reduced chi-squared = 4633.938 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17139.10 using 168 PHA bins.
Reduced chi-squared = 107.1194 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4702.40 -3 85.64 14.66 0.1297 1.018
0.5225 85.72 14.09 1.007
1405.04 -4 73.33 16.13 0.1531 0.8859
0.3598 74.75 15.26 0.8907
699.236 -1 78.19 8.283 0.1233 0.8829
0.3752 78.59 9.244 0.8813
612.060 -2 76.73 9.259 0.1258 0.8914
0.3924 77.85 9.684 0.8910
606.155 -3 76.75 8.885 0.1246 0.9152
0.4325 77.97 9.522 0.9143
601.374 -4 76.73 9.028 0.1261 0.9234
0.4499 77.99 9.625 0.9231
601.082 -5 76.75 8.978 0.1256 0.9234
0.4513 78.01 9.585 0.9235
601.076 -6 76.74 8.999 0.1258 0.9234
0.4513 78.00 9.602 0.9235
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.34E-07 | 0.00 0.00 -0.34 0.54 -0.56 0.00 0.00 0.52
1.44E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.44E-06 | 0.00 0.01 -0.94 -0.18 0.21 0.00 0.01 -0.19
6.55E-04 | 0.02 0.01 -0.01 -0.44 -0.80 0.02 0.01 -0.42
4.53E-02 | -0.15 -0.78 0.00 0.00 0.00 0.08 0.60 0.00
6.23E-02 | 0.96 -0.03 0.00 0.01 0.01 -0.17 0.23 0.01
9.61E-02 | -0.22 0.54 0.01 0.00 0.00 -0.41 0.70 0.00
7.25E-02 | 0.09 0.31 0.00 0.01 0.02 0.89 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 76.7428 +/- 0.252299 1
2 2 1 gaussian Sigma keV 8.99936 +/- 0.250365 1
3 3 1 gaussian norm 0.125821 +/- 0.312235E-02 1
4 4 2 powerlaw PhoIndex 0.923385 +/- 0.118477E-01 1
5 5 2 powerlaw norm 0.451277 +/- 0.215110E-01 1
6 6 3 gaussian LineE keV 78.0030 +/- 0.275651 2
7 7 3 gaussian Sigma keV 9.60209 +/- 0.271771 2
8 3 3 gaussian norm 0.125821 = par 3 2
9 8 4 powerlaw PhoIndex 0.923514 +/- 0.113760E-01 2
10 5 4 powerlaw norm 0.451277 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 601.0757 using 168 PHA bins.
Reduced chi-squared = 3.756723 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 ( 3.599) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.599) > 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 0.8308 photons ( 9.9792E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8304 photons ( 9.9999E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
65.63552
=====best line=====
76.7439 0.252435
=====best sigma=====
8.99707 0.250532
=====norm=====
0.125801 0.312406E-02
=====phoindx=====
0.923382 0.118487E-01
=====pow_norm=====
0.451285 0.215129E-01
=====best line=====
78.0034 0.275679
=====best sigma=====
9.60053 0.271827
=====norm=====
0.125801 par
=====phoindx=====
0.923512 0.113770E-01
=====pow_norm=====
0.451285 par
=====redu_chi=====
3.756717
=====area_flux=====
0.8308
=====area_flux_f=====
0.8304
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 9 1 640 2000 1227.9024 0 0.125801 0.312406E-02 8.99707 0.250532 0.923382 0.118487E-01 0.451285 0.215129E-01 0.8308 640 2000 1248.0544 0 0.125801 0.312406E-02 9.60053 0.271827 0.923512 0.113770E-01 0.451285 0.215129E-01 0.8304 3.756717 1
=====redu_chi=====
318.0473
=====best line=====
118.600 0.206321
=====best sigma=====
19.3655 1.91004
=====norm=====
0.913489 0.546337E-02
=====phoindx=====
9.50003 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.877 0.206676
=====best sigma=====
18.5074 0.308315
=====norm=====
0.913489 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
48.68644
=====area_flux=====
0.7596
=====area_flux_f=====
0.7209
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 9 1 1600 3200 1897.6 0 0.913489 0.546337E-02 309.848 30.56064 9.50003 -1.00000 0.00000 -1.00000 0.7596 1600 3200 1838.032 0 0.913489 0.546337E-02 296.1184 4.93304 9.50000 -1.00000 0.00000 -1.00000 0.7209 48.68644 1
=====redu_chi=====
107.1194
=====best line=====
76.7428 0.252299
=====best sigma=====
8.99936 0.250365
=====norm=====
0.125821 0.312235E-02
=====phoindx=====
0.923385 0.118477E-01
=====pow_norm=====
0.451277 0.215110E-01
=====best line=====
78.0030 0.275651
=====best sigma=====
9.60209 0.271771
=====norm=====
0.125821 par
=====phoindx=====
0.923514 0.113760E-01
=====pow_norm=====
0.451277 par
=====redu_chi=====
3.756723
=====area_flux=====
0.8308
=====area_flux_f=====
0.8304
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 9 1 640 2000 1227.8848 0 0.125821 0.312235E-02 8.99936 0.250365 0.923385 0.118477E-01 0.451277 0.215110E-01 0.8308 640 2000 1248.048 0 0.125821 0.312235E-02 9.60209 0.271771 0.923514 0.113760E-01 0.451277 0.215110E-01 0.8304 3.756723 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:53 12-Jun-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 2.127 +/- 5.9004E-03
Net count rate (cts/s) for file 2 2.127 +/- 5.9004E-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 = 692512.1 using 168 PHA bins.
Reduced chi-squared = 4328.201 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11666.30 using 168 PHA bins.
Reduced chi-squared = 72.91435 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5060.51 -3 82.10 16.45 0.1689 1.057
0.5373 81.80 16.48 1.047
967.111 -3 75.26 8.022 0.1084 0.8889
0.4069 74.35 8.023 0.8960
893.815 -3 76.15 12.27 0.1397 0.9733
0.5126 76.04 14.71 0.9721
810.116 -4 78.12 9.508 0.1114 1.039
0.6882 78.18 8.624 1.037
556.625 -1 76.76 10.24 0.1363 1.036
0.6936 77.01 12.04 1.036
474.092 -2 76.94 9.948 0.1390 1.034
0.6878 76.85 9.917 1.035
473.683 0 76.90 9.903 0.1398 1.034
0.6874 76.83 10.51 1.035
469.943 -1 76.84 9.984 0.1426 1.034
0.6855 76.78 10.31 1.035
469.775 -2 76.83 9.988 0.1434 1.033
0.6818 76.75 10.36 1.034
469.663 -3 76.81 9.986 0.1432 1.030
0.6731 76.74 10.35 1.031
469.647 -4 76.81 9.985 0.1431 1.029
0.6699 76.73 10.35 1.030
469.646 -5 76.81 9.984 0.1431 1.029
0.6697 76.73 10.35 1.030
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.08E-06 | 0.00 0.00 -0.40 0.59 -0.41 0.00 0.00 0.57
1.57E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
6.37E-06 | 0.00 0.02 -0.92 -0.24 0.19 0.00 0.04 -0.25
1.21E-03 | 0.03 0.00 0.00 -0.32 -0.86 0.04 0.26 -0.30
1.56E-03 | -0.01 -0.20 0.03 0.09 0.22 0.01 0.94 0.09
8.60E-03 | 0.05 0.98 0.02 0.02 0.04 0.03 0.19 0.02
6.34E-02 | -0.87 0.03 0.00 0.00 -0.01 0.50 0.00 0.00
7.73E-02 | 0.49 -0.04 0.00 0.01 0.04 0.87 -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 76.8072 +/- 0.258018 1
2 2 1 gaussian Sigma keV 9.98364 +/- 0.921376E-01 1
3 3 1 gaussian norm 0.143135 +/- 0.345144E-02 1
4 4 2 powerlaw PhoIndex 1.02893 +/- 0.124811E-01 1
5 5 2 powerlaw norm 0.669686 +/- 0.334760E-01 1
6 6 3 gaussian LineE keV 76.7285 +/- 0.271451 2
7 7 3 gaussian Sigma keV 10.3469 +/- 0.428667E-01 2
8 3 3 gaussian norm 0.143135 = par 3 2
9 8 4 powerlaw PhoIndex 1.02990 +/- 0.119695E-01 2
10 5 4 powerlaw norm 0.669686 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 469.6460 using 168 PHA bins.
Reduced chi-squared = 2.935287 for 160 degrees of freedom
Null hypothesis probability = 3.398E-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 ( 2.812) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.812) > 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 0.8108 photons ( 9.6604E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8080 photons ( 9.6254E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:53 12-Jun-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 5.231 +/- 9.2526E-03
Net count rate (cts/s) for file 2 5.231 +/- 9.2526E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.104 +/- 1.0974E-02( 59.3% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.104 +/- 1.0974E-02( 59.3% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 8013060. using 198 PHA bins.
Reduced chi-squared = 42174.00 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 60533.93 using 198 PHA bins.
Reduced chi-squared = 318.5996 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
31072.2 -3 119.4 18.06 0.3173 2.861
0.1700 115.3 18.15 2.804
13560.3 -2 108.6 19.19 1.073 7.960
4.8483E-02 107.4 19.36 7.120
12343.0 0 110.4 19.34 1.055 9.074
1.4331E-02 109.2 19.36 9.154
11520.4 0 111.9 19.36 1.037 9.455
5.7696E-03 110.5 19.37 9.444
10925.9 0 113.2 19.36 1.018 9.479
1.3441E-03 111.6 19.37 9.473
10501.5 0 114.2 19.37 1.001 9.496
3.9146E-04 112.4 19.37 9.493
10206.1 0 115.1 19.37 0.9863 9.499
8.8380E-05 113.1 19.37 9.497
10000.9 0 115.7 19.37 0.9734 9.499
5.4678E-06 113.6 19.37 9.499
9861.02 0 116.3 19.37 0.9627 9.500
3.6328E-08 114.0 19.37 9.500
9769.21 0 116.8 19.37 0.9543 9.500
1.4603E-08 114.3 19.37 9.500
9706.31 0 117.1 19.37 0.9472 9.500
3.5522E-09 114.6 19.37 9.500
9600.85 0 117.8 19.37 0.9313 9.500
3.1037E-11 114.9 19.37 9.500
9584.62 0 117.9 19.37 0.9278 9.500
1.5050E-11 115.0 19.37 9.500
9575.65 0 118.0 19.37 0.9256 9.500
7.0330E-12 115.0 19.37 9.500
9568.96 0 118.0 19.37 0.9239 9.500
3.0223E-12 115.1 19.37 9.500
9564.22 0 118.1 19.37 0.9225 9.500
1.0157E-12 115.1 19.37 9.500
9560.06 0 118.1 19.37 0.9213 9.500
1.0121E-14 115.2 19.37 9.500
Fit parameter 5 has pegged
9533.61 0 118.1 19.37 0.9155 9.500
0.000 115.0 19.26 9.500
Fit parameter 5 has pegged
9529.90 0 118.0 19.37 0.9134 9.500
0.000 114.9 19.27 9.500
Fit parameter 5 has pegged
9528.80 0 118.0 19.37 0.9125 9.500
0.000 114.8 19.28 9.500
Fit parameter 5 has pegged
9524.15 0 118.1 19.37 0.9115 9.500
0.000 114.8 19.28 9.500
Fit parameter 5 has pegged
9519.97 0 118.1 19.37 0.9105 9.500
0.000 114.8 19.28 9.500
Fit parameter 5 has pegged
9516.24 0 118.2 19.37 0.9096 9.500
0.000 114.8 19.28 9.500
Fit parameter 5 has pegged
9512.77 0 118.2 19.37 0.9087 9.500
0.000 114.8 19.28 9.500
Fit parameter 5 has pegged
9509.68 0 118.3 19.37 0.9079 9.500
0.000 114.8 19.28 9.500
Fit parameter 5 has pegged
9506.91 0 118.3 19.37 0.9071 9.500
0.000 114.8 19.28 9.500
Fit parameter 5 has pegged
9504.33 0 118.3 19.37 0.9064 9.500
0.000 114.8 19.28 9.500
Fit parameter 5 has pegged
9502.04 0 118.4 19.37 0.9057 9.500
0.000 114.8 19.27 9.500
Fit parameter 5 has pegged
9499.88 0 118.4 19.37 0.9050 9.500
0.000 114.8 19.28 9.500
Fit parameter 5 has pegged
9498.03 0 118.5 19.37 0.9044 9.500
0.000 114.8 19.27 9.500
Fit parameter 5 has pegged
9496.22 0 118.5 19.37 0.9039 9.500
0.000 114.8 19.27 9.500
Fit parameter 5 has pegged
9494.58 0 118.5 19.37 0.9033 9.500
0.000 114.9 19.27 9.500
Fit parameter 5 has pegged
9493.13 0 118.5 19.37 0.9028 9.500
0.000 114.9 19.27 9.500
Fit parameter 5 has pegged
9491.77 0 118.6 19.37 0.9023 9.500
0.000 114.9 19.27 9.500
Fit parameter 5 has pegged
9490.51 0 118.6 19.37 0.9018 9.500
0.000 114.9 19.26 9.500
Fit parameter 5 has pegged
9489.34 0 118.6 19.37 0.9014 9.500
0.000 114.9 19.26 9.500
Fit parameter 5 has pegged
9488.31 0 118.6 19.37 0.9010 9.500
0.000 114.9 19.26 9.500
Fit parameter 5 has pegged
9487.39 0 118.7 19.37 0.9006 9.500
0.000 114.9 19.26 9.500
Fit parameter 5 has pegged
9486.47 0 118.7 19.37 0.9002 9.500
0.000 114.9 19.25 9.500
Fit parameter 5 has pegged
9485.63 0 118.7 19.37 0.8998 9.500
0.000 114.9 19.25 9.500
Fit parameter 5 has pegged
9484.79 0 118.7 19.37 0.8995 9.500
0.000 114.9 19.25 9.500
Fit parameter 5 has pegged
9484.08 0 118.7 19.37 0.8992 9.500
0.000 114.9 19.25 9.500
Fit parameter 5 has pegged
9483.43 0 118.8 19.37 0.8988 9.500
0.000 114.9 19.25 9.500
Fit parameter 5 has pegged
9482.77 0 118.8 19.37 0.8985 9.500
0.000 114.9 19.24 9.500
Fit parameter 5 has pegged
9482.21 0 118.8 19.37 0.8982 9.500
0.000 114.9 19.24 9.500
Fit parameter 5 has pegged
9481.63 0 118.8 19.37 0.8980 9.500
0.000 114.9 19.24 9.500
Fit parameter 5 has pegged
9481.18 0 118.8 19.37 0.8977 9.500
0.000 114.9 19.24 9.500
Fit parameter 5 has pegged
9480.65 0 118.8 19.37 0.8974 9.500
0.000 115.0 19.23 9.500
Fit parameter 5 has pegged
9480.20 0 118.8 19.37 0.8972 9.500
0.000 115.0 19.23 9.500
Fit parameter 5 has pegged
9479.80 0 118.9 19.37 0.8969 9.500
0.000 115.0 19.23 9.500
Fit parameter 5 has pegged
9479.39 0 118.9 19.37 0.8967 9.500
0.000 115.0 19.23 9.500
Fit parameter 5 has pegged
9479.03 0 118.9 19.37 0.8965 9.500
0.000 115.0 19.22 9.500
Fit parameter 5 has pegged
9478.65 0 118.9 19.37 0.8963 9.500
0.000 115.0 19.22 9.500
Fit parameter 5 has pegged
9478.32 0 118.9 19.37 0.8961 9.500
0.000 115.0 19.22 9.500
Fit parameter 5 has pegged
9478.04 0 118.9 19.37 0.8959 9.500
0.000 115.0 19.22 9.500
Fit parameter 5 has pegged
9477.72 0 118.9 19.37 0.8957 9.500
0.000 115.0 19.21 9.500
Fit parameter 5 has pegged
9477.44 0 118.9 19.37 0.8955 9.500
0.000 115.0 19.21 9.500
Fit parameter 5 has pegged
9477.14 0 118.9 19.37 0.8953 9.500
0.000 115.0 19.21 9.500
Fit parameter 5 has pegged
9476.94 0 118.9 19.37 0.8951 9.500
0.000 115.0 19.21 9.500
Fit parameter 5 has pegged
9476.70 0 118.9 19.37 0.8950 9.500
0.000 115.0 19.20 9.500
Fit parameter 5 has pegged
9476.46 0 119.0 19.37 0.8948 9.500
0.000 115.0 19.20 9.500
Fit parameter 5 has pegged
9476.27 0 119.0 19.37 0.8947 9.500
0.000 115.0 19.20 9.500
Fit parameter 5 has pegged
9476.08 0 119.0 19.37 0.8945 9.500
0.000 115.0 19.20 9.500
Fit parameter 5 has pegged
9475.89 0 119.0 19.37 0.8944 9.500
0.000 115.0 19.20 9.500
Fit parameter 5 has pegged
9475.69 0 119.0 19.37 0.8942 9.500
0.000 115.1 19.19 9.500
Fit parameter 5 has pegged
9475.51 0 119.0 19.37 0.8941 9.500
0.000 115.1 19.19 9.500
Fit parameter 5 has pegged
9475.35 0 119.0 19.37 0.8939 9.500
0.000 115.1 19.19 9.500
Fit parameter 5 has pegged
9475.19 0 119.0 19.37 0.8938 9.500
0.000 115.1 19.19 9.500
Fit parameter 5 has pegged
9475.01 0 119.0 19.37 0.8937 9.500
0.000 115.1 19.19 9.500
Fit parameter 5 has pegged
9474.88 0 119.0 19.37 0.8936 9.500
0.000 115.1 19.18 9.500
Fit parameter 5 has pegged
9474.76 0 119.0 19.37 0.8935 9.500
0.000 115.1 19.18 9.500
Fit parameter 5 has pegged
9474.64 0 119.0 19.37 0.8933 9.500
0.000 115.1 19.18 9.500
Fit parameter 5 has pegged
9474.51 0 119.0 19.37 0.8932 9.500
0.000 115.1 19.18 9.500
Fit parameter 5 has pegged
9474.39 0 119.0 19.37 0.8931 9.500
0.000 115.1 19.18 9.500
Fit parameter 5 has pegged
9474.28 0 119.0 19.37 0.8930 9.500
0.000 115.1 19.18 9.500
Fit parameter 5 has pegged
9474.16 0 119.0 19.37 0.8929 9.500
0.000 115.1 19.17 9.500
Fit parameter 5 has pegged
9474.06 0 119.0 19.37 0.8928 9.500
0.000 115.1 19.17 9.500
Fit parameter 5 has pegged
9473.96 0 119.0 19.37 0.8927 9.500
0.000 115.1 19.17 9.500
Fit parameter 5 has pegged
9473.86 0 119.0 19.37 0.8926 9.500
0.000 115.1 19.17 9.500
Fit parameter 5 has pegged
9473.79 0 119.0 19.37 0.8925 9.500
0.000 115.1 19.17 9.500
Fit parameter 5 has pegged
9473.67 0 119.0 19.37 0.8925 9.500
0.000 115.1 19.16 9.500
Fit parameter 5 has pegged
9473.63 0 119.0 19.37 0.8924 9.500
0.000 115.1 19.16 9.500
Fit parameter 5 has pegged
9473.52 0 119.0 19.37 0.8923 9.500
0.000 115.1 19.16 9.500
Fit parameter 5 has pegged
9473.49 0 119.1 19.37 0.8922 9.500
0.000 115.1 19.16 9.500
Fit parameter 5 has pegged
9473.39 0 119.1 19.37 0.8921 9.500
0.000 115.1 19.16 9.500
Fit parameter 5 has pegged
9473.33 0 119.1 19.37 0.8921 9.500
0.000 115.1 19.16 9.500
Fit parameter 5 has pegged
9473.26 0 119.1 19.37 0.8920 9.500
0.000 115.1 19.16 9.500
Fit parameter 5 has pegged
9473.23 0 119.1 19.37 0.8919 9.500
0.000 115.2 19.16 9.500
Fit parameter 5 has pegged
9473.17 0 119.1 19.37 0.8919 9.500
0.000 115.2 19.15 9.500
Fit parameter 5 has pegged
9473.08 0 119.1 19.37 0.8918 9.500
0.000 115.2 19.15 9.500
Fit parameter 5 has pegged
9473.02 0 119.1 19.37 0.8917 9.500
0.000 115.2 19.15 9.500
Fit parameter 5 has pegged
9472.98 0 119.1 19.37 0.8917 9.500
0.000 115.2 19.15 9.500
Fit parameter 5 has pegged
9472.96 1 119.1 19.37 0.8916 9.500
0.000 115.2 19.15 9.500
Fit parameter 5 has pegged
9472.96 1 119.1 19.37 0.8916 9.500
0.000 115.2 19.15 9.500
9472.84 0 119.1 19.37 0.8916 9.500
0.000 115.2 19.16 9.500
Fit parameter 5 has pegged
9472.81 0 119.1 19.37 0.8915 9.500
0.000 115.2 19.15 9.500
Fit parameter 5 has pegged
9472.76 0 119.1 19.37 0.8915 9.500
0.000 115.2 19.15 9.500
Fit parameter 5 has pegged
9472.71 0 119.1 19.37 0.8914 9.500
0.000 115.2 19.15 9.500
Fit parameter 5 has pegged
9472.71 4 119.1 19.37 0.8914 9.500
0.000 115.2 19.15 9.500
9472.71 5 119.1 19.37 0.8914 9.500
0.000 115.2 19.15 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.48E-05 | -0.01 0.00 -1.00 -0.01 0.00
2.23E-02 | 0.38 0.01 0.00 -0.92 -0.13
2.75E-02 | -0.92 -0.06 0.01 -0.37 -0.07
4.06E+00 | -0.06 0.99 0.00 -0.03 0.16
9.19E-01 | -0.01 -0.16 0.00 -0.14 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 119.082 +/- 0.201573 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.99168 1
3 3 1 gaussian norm 0.891398 +/- 0.535581E-02 1
4 4 2 powerlaw PhoIndex 9.50005 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 115.182 +/- 0.214630 2
7 7 3 gaussian Sigma keV 19.1503 +/- 0.989210 2
8 3 3 gaussian norm 0.891398 = 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 = 9472.705 using 198 PHA bins.
Reduced chi-squared = 49.85634 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 ( 48.085) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 48.085) > 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 0.7467 photons ( 1.4926E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7006 photons ( 1.3726E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:53 12-Jun-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 2.127 +/- 5.9004E-03
Net count rate (cts/s) for file 2 2.127 +/- 5.9004E-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 = 791092.2 using 168 PHA bins.
Reduced chi-squared = 4944.326 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17726.50 using 168 PHA bins.
Reduced chi-squared = 110.7906 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
10055.4 -3 85.31 14.05 0.1182 1.097
0.5910 85.16 13.87 1.084
1791.25 -4 71.89 15.86 0.1639 0.9749
0.5596 71.36 15.65 0.9815
1129.58 -2 80.61 7.431 8.5276E-02 1.003
0.6314 79.55 7.981 1.003
750.809 -1 77.37 12.24 0.1209 1.006
0.6265 77.05 11.08 1.007
479.211 -2 77.00 9.717 0.1346 1.012
0.6307 76.67 9.930 1.013
475.763 0 76.88 9.736 0.1363 1.012
0.6301 76.69 10.09 1.013
471.686 -1 76.72 9.944 0.1411 1.013
0.6289 76.66 10.35 1.014
470.673 -2 76.74 9.978 0.1427 1.017
0.6365 76.66 10.33 1.018
469.915 -3 76.79 9.975 0.1429 1.026
0.6597 76.71 10.34 1.026
469.669 -4 76.80 9.980 0.1432 1.029
0.6691 76.73 10.35 1.030
469.647 -5 76.81 9.982 0.1432 1.029
0.6697 76.73 10.35 1.030
469.647 -6 76.81 9.983 0.1432 1.029
0.6697 76.73 10.35 1.030
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.08E-06 | 0.00 0.00 -0.40 0.59 -0.41 0.00 0.00 0.57
1.57E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
6.36E-06 | 0.00 0.02 -0.92 -0.24 0.19 0.00 0.04 -0.25
1.21E-03 | 0.03 0.00 0.00 -0.32 -0.86 0.04 0.26 -0.30
1.57E-03 | -0.01 -0.19 0.03 0.09 0.23 0.01 0.95 0.09
9.55E-03 | 0.05 0.98 0.02 0.02 0.04 0.03 0.18 0.02
7.72E-02 | 0.49 -0.05 0.00 0.01 0.04 0.87 -0.02 0.01
6.33E-02 | 0.87 -0.03 0.00 0.00 0.01 -0.50 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 76.8064 +/- 0.257894 1
2 2 1 gaussian Sigma keV 9.98251 +/- 0.973265E-01 1
3 3 1 gaussian norm 0.143152 +/- 0.344918E-02 1
4 4 2 powerlaw PhoIndex 1.02894 +/- 0.124821E-01 1
5 5 2 powerlaw norm 0.669689 +/- 0.334713E-01 1
6 6 3 gaussian LineE keV 76.7285 +/- 0.271427 2
7 7 3 gaussian Sigma keV 10.3476 +/- 0.428535E-01 2
8 3 3 gaussian norm 0.143152 = par 3 2
9 8 4 powerlaw PhoIndex 1.02991 +/- 0.119704E-01 2
10 5 4 powerlaw norm 0.669689 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 469.6471 using 168 PHA bins.
Reduced chi-squared = 2.935294 for 160 degrees of freedom
Null hypothesis probability = 3.397E-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 ( 2.812) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.812) > 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 0.8108 photons ( 9.6603E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8080 photons ( 9.6254E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
72.91435
=====best line=====
76.8072 0.258018
=====best sigma=====
9.98364 0.921376E-01
=====norm=====
0.143135 0.345144E-02
=====phoindx=====
1.02893 0.124811E-01
=====pow_norm=====
0.669686 0.334760E-01
=====best line=====
76.7285 0.271451
=====best sigma=====
10.3469 0.428667E-01
=====norm=====
0.143135 par
=====phoindx=====
1.02990 0.119695E-01
=====pow_norm=====
0.669686 par
=====redu_chi=====
2.935287
=====area_flux=====
0.8108
=====area_flux_f=====
0.8080
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 10 1 640 2000 1228.9152 0 0.143135 0.345144E-02 9.98364 0.921376E-01 1.02893 0.124811E-01 0.669686 0.334760E-01 0.8108 640 2000 1227.656 0 0.143135 0.345144E-02 10.3469 0.428667E-01 1.02990 0.119695E-01 0.669686 0.334760E-01 0.8080 2.935287 0
=====redu_chi=====
318.5996
=====best line=====
119.082 0.201573
=====best sigma=====
19.3655 1.99168
=====norm=====
0.891398 0.535581E-02
=====phoindx=====
9.50005 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
115.182 0.214630
=====best sigma=====
19.1503 0.989210
=====norm=====
0.891398 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
49.85634
=====area_flux=====
0.7467
=====area_flux_f=====
0.7006
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 10 1 1600 3200 1905.312 0 0.891398 0.535581E-02 309.848 31.86688 9.50005 -1.00000 0.00000 -1.00000 0.7467 1600 3200 1842.912 0 0.891398 0.535581E-02 306.4048 15.82736 9.50000 -1.00000 0.00000 -1.00000 0.7006 49.85634 1
=====redu_chi=====
110.7906
=====best line=====
76.8064 0.257894
=====best sigma=====
9.98251 0.973265E-01
=====norm=====
0.143152 0.344918E-02
=====phoindx=====
1.02894 0.124821E-01
=====pow_norm=====
0.669689 0.334713E-01
=====best line=====
76.7285 0.271427
=====best sigma=====
10.3476 0.428535E-01
=====norm=====
0.143152 par
=====phoindx=====
1.02991 0.119704E-01
=====pow_norm=====
0.669689 par
=====redu_chi=====
2.935294
=====area_flux=====
0.8108
=====area_flux_f=====
0.8080
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 10 1 640 2000 1228.9024 0 0.143152 0.344918E-02 9.98251 0.973265E-01 1.02894 0.124821E-01 0.669689 0.334713E-01 0.8108 640 2000 1227.656 0 0.143152 0.344918E-02 10.3476 0.428535E-01 1.02991 0.119704E-01 0.669689 0.334713E-01 0.8080 2.935294 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:54 12-Jun-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 2.398 +/- 6.2643E-03
Net count rate (cts/s) for file 2 2.398 +/- 6.2643E-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 = 604948.0 using 168 PHA bins.
Reduced chi-squared = 3780.925 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13332.75 using 168 PHA bins.
Reduced chi-squared = 83.32968 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3328.89 -3 83.20 17.47 0.1976 0.9868
0.4946 83.01 17.16 0.9759
2623.23 -3 68.30 19.17 0.2863 0.8597
0.2524 70.78 19.20 0.8638
2202.43 -4 75.99 8.519 9.5272E-02 0.9002
0.4748 78.83 8.531 0.8813
1772.28 -5 68.69 17.35 0.1331 0.8247
0.2891 73.36 16.52 0.8251
672.252 0 70.32 7.586 0.1514 0.8208
0.2943 73.59 9.499 0.8197
372.925 -1 69.59 8.834 0.1391 0.8150
0.2994 73.48 10.28 0.8137
365.601 -2 69.38 8.953 0.1357 0.8074
0.2917 73.49 9.988 0.8064
361.186 -3 69.27 8.979 0.1365 0.7886
0.2687 73.33 9.998 0.7882
360.435 -4 69.23 8.980 0.1368 0.7825
0.2618 73.28 10.04 0.7815
360.422 -5 69.24 8.972 0.1367 0.7826
0.2618 73.28 10.00 0.7814
360.408 -6 69.23 8.975 0.1367 0.7825
0.2617 73.27 10.03 0.7813
360.407 0 69.23 8.974 0.1367 0.7825
0.2617 73.27 10.03 0.7813
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.84E-07 | 0.00 0.00 -0.23 0.43 -0.77 0.00 0.00 0.41
1.35E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
6.20E-06 | 0.00 0.01 -0.97 -0.10 0.18 0.00 0.02 -0.11
3.47E-04 | 0.02 -0.01 0.01 -0.57 -0.61 0.02 -0.02 -0.55
4.70E-03 | -0.02 0.11 -0.02 0.01 0.02 -0.03 -0.99 0.01
5.48E-02 | 0.72 0.69 0.00 0.01 0.00 0.03 0.06 0.01
9.40E-02 | 0.35 -0.40 0.00 0.01 0.02 0.84 -0.07 0.01
6.67E-02 | -0.60 0.59 0.00 0.00 -0.01 0.54 0.06 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 69.2330 +/- 0.252628 1
2 2 1 gaussian Sigma keV 8.97449 +/- 0.254451 1
3 3 1 gaussian norm 0.136704 +/- 0.359352E-02 1
4 4 2 powerlaw PhoIndex 0.782540 +/- 0.117244E-01 1
5 5 2 powerlaw norm 0.261696 +/- 0.128440E-01 1
6 6 3 gaussian LineE keV 73.2749 +/- 0.293031 2
7 7 3 gaussian Sigma keV 10.0319 +/- 0.748894E-01 2
8 3 3 gaussian norm 0.136704 = par 3 2
9 8 4 powerlaw PhoIndex 0.781341 +/- 0.112345E-01 2
10 5 4 powerlaw norm 0.261696 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 360.4070 using 168 PHA bins.
Reduced chi-squared = 2.252544 for 160 degrees of freedom
Null hypothesis probability = 1.736E-17
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 ( 2.158) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.158) > 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 0.8824 photons ( 1.0566E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8862 photons ( 1.0702E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:54 12-Jun-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 6.048 +/- 9.9488E-03
Net count rate (cts/s) for file 2 6.048 +/- 9.9488E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.650 +/- 1.1757E-02( 60.4% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.650 +/- 1.1757E-02( 60.4% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 1.2732092E+07 using 198 PHA bins.
Reduced chi-squared = 67011.01 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 54527.09 using 198 PHA bins.
Reduced chi-squared = 286.9847 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
32739.2 -3 93.02 19.30 0.3565 2.626
8.7317E-02 108.3 17.78 2.577
32654.6 2 93.10 19.33 0.3573 2.491
0.1104 108.3 17.78 2.568
31815.4 1 93.88 19.35 0.3650 2.002
0.3036 108.4 17.75 2.523
24965.8 0 100.4 19.36 0.4318 1.935
0.4120 109.4 17.34 2.699
11824.1 0 118.5 19.36 0.6998 2.026
0.2467 112.1 13.20 6.662
9852.08 0 118.0 18.92 0.7052 2.379
3.2053E-02 112.3 13.43 8.883
7427.52 0 116.2 13.09 0.7698 8.840
1.0584E-03 113.2 14.67 9.340
5174.12 -1 113.7 16.57 0.9002 9.412
2.3169E-04 112.4 15.98 9.461
5015.42 -2 111.4 18.19 0.9692 9.467
7.6872E-05 110.9 16.49 9.485
5012.66 -1 111.4 18.69 0.9652 9.486
1.7652E-05 110.8 16.46 9.493
4898.87 0 111.4 18.62 0.9619 9.493
8.0764E-06 110.7 16.33 9.499
4869.26 0 111.4 18.59 0.9598 9.497
3.2461E-06 110.7 16.28 9.500
4858.78 0 111.4 18.56 0.9583 9.499
8.3185E-07 110.7 16.26 9.500
4854.00 0 111.5 18.55 0.9571 9.499
2.2931E-07 110.7 16.24 9.500
4851.22 0 111.5 18.53 0.9560 9.500
7.8849E-08 110.8 16.23 9.500
4848.87 0 111.5 18.52 0.9550 9.500
3.7195E-09 110.8 16.22 9.500
4800.27 0 111.6 18.42 0.9511 9.500
1.9911E-10 110.8 16.11 9.500
4794.79 0 111.6 18.38 0.9497 9.500
9.5963E-11 110.8 16.09 9.500
4792.07 0 111.6 18.36 0.9486 9.500
4.4551E-11 110.9 16.08 9.500
4789.99 0 111.7 18.34 0.9475 9.500
1.8903E-11 110.9 16.07 9.500
4788.54 0 111.7 18.33 0.9465 9.500
6.0999E-12 110.9 16.06 9.500
4787.10 0 111.7 18.32 0.9457 9.500
2.9039E-12 111.0 16.05 9.500
4786.04 0 111.7 18.31 0.9449 9.500
1.3079E-12 111.0 16.04 9.500
4784.90 0 111.8 18.30 0.9442 9.500
5.1098E-13 111.0 16.03 9.500
4783.99 0 111.8 18.29 0.9436 9.500
1.1295E-13 111.0 16.02 9.500
Fit parameter 5 has pegged
4740.17 -1 112.1 17.84 0.9281 9.500
0.000 111.2 15.56 9.500
Fit parameter 5 has pegged
4731.64 -2 112.1 18.00 0.9272 9.500
0.000 111.2 15.71 9.500
Fit parameter 5 has pegged
4730.24 -3 112.3 17.86 0.9209 9.500
0.000 111.4 15.56 9.500
Fit parameter 5 has pegged
4729.76 -4 112.2 17.93 0.9232 9.500
0.000 111.4 15.63 9.500
Fit parameter 5 has pegged
4729.58 -5 112.3 17.89 0.9217 9.500
0.000 111.4 15.59 9.500
Fit parameter 5 has pegged
4729.54 -6 112.3 17.92 0.9226 9.500
0.000 111.4 15.61 9.500
Fit parameter 5 has pegged
4729.50 -7 112.3 17.90 0.9219 9.500
0.000 111.4 15.60 9.500
Fit parameter 5 has pegged
4729.49 -2 112.3 17.91 0.9223 9.500
0.000 111.4 15.61 9.500
Fit parameter 5 has pegged
4729.49 -3 112.3 17.91 0.9222 9.500
0.000 111.4 15.60 9.500
4729.47 2 112.3 17.91 0.9222 9.500
0.000 111.4 15.60 9.500
Fit parameter 5 has pegged
4729.47 3 112.3 17.91 0.9222 9.500
0.000 111.4 15.60 9.500
4729.47 5 112.3 17.91 0.9222 9.500
0.000 111.4 15.60 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.66E-05 | -0.01 0.01 -1.00 -0.01 0.03
5.55E-04 | 0.01 0.00 0.03 0.14 0.99
9.67E-03 | -0.59 -0.81 0.00 0.02 0.00
7.78E-02 | 0.74 -0.53 -0.02 0.41 -0.07
2.68E-02 | 0.33 -0.26 0.01 -0.90 0.12
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 112.261 +/- 0.220480 1
2 2 1 gaussian Sigma keV 17.9065 +/- 0.172813 1
3 3 1 gaussian norm 0.922184 +/- 0.624314E-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 111.397 +/- 0.187425 2
7 7 3 gaussian Sigma keV 15.6027 +/- 0.353940E-01 2
8 3 3 gaussian norm 0.922184 = 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 = 4729.470 using 198 PHA bins.
Reduced chi-squared = 24.89195 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 ( 24.007) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 24.007) > 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 0.6945 photons ( 1.3328E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7076 photons ( 1.3334E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:54 12-Jun-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 2.398 +/- 6.2643E-03
Net count rate (cts/s) for file 2 2.398 +/- 6.2643E-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 = 721453.6 using 168 PHA bins.
Reduced chi-squared = 4509.085 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21682.56 using 168 PHA bins.
Reduced chi-squared = 135.5160 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3111.45 -3 86.89 14.76 9.5473E-02 0.8899
0.4286 86.11 14.17 0.8767
2265.81 -4 62.90 19.15 0.2353 0.9427
0.4567 65.31 18.66 0.9383
1399.08 0 68.13 18.78 0.2278 0.9415
0.4548 70.56 18.99 0.9386
1346.87 0 68.48 18.52 0.2282 0.9413
0.4546 70.98 18.77 0.9386
1302.58 0 68.78 18.27 0.2284 0.9412
0.4545 71.35 18.56 0.9387
1015.95 0 70.35 14.16 0.2254 0.9405
0.4533 73.26 13.79 0.9385
626.145 -1 71.17 10.94 0.1627 0.9268
0.4651 74.49 11.71 0.9245
493.431 -2 70.44 9.842 0.1304 0.8907
0.4179 74.46 9.945 0.8903
422.176 -2 69.89 8.851 0.1341 0.8676
0.3770 73.91 9.936 0.8673
397.359 -2 69.62 8.925 0.1348 0.8488
0.3482 73.78 9.918 0.8483
382.886 -2 69.55 8.888 0.1347 0.8343
0.3276 73.67 9.922 0.8337
373.838 -3 69.30 9.003 0.1366 0.7950
0.2739 73.37 10.28 0.7955
360.492 -4 69.24 8.972 0.1365 0.7827
0.2622 73.29 9.997 0.7819
360.407 -5 69.23 8.977 0.1367 0.7825
0.2616 73.27 10.03 0.7813
360.407 3 69.23 8.977 0.1367 0.7825
0.2616 73.27 10.03 0.7813
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.84E-07 | 0.00 0.00 -0.23 0.43 -0.77 0.00 0.00 0.41
1.35E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
6.20E-06 | 0.00 0.01 -0.97 -0.10 0.18 0.00 0.02 -0.11
3.47E-04 | 0.02 -0.01 0.01 -0.57 -0.61 0.02 -0.02 -0.55
4.77E-03 | -0.02 0.11 -0.02 0.01 0.02 -0.03 -0.99 0.01
5.48E-02 | 0.72 0.69 0.00 0.01 0.00 0.03 0.06 0.01
9.39E-02 | 0.35 -0.41 0.00 0.02 0.02 0.84 -0.08 0.01
6.67E-02 | -0.59 0.59 0.00 0.00 -0.01 0.54 0.06 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 69.2322 +/- 0.252667 1
2 2 1 gaussian Sigma keV 8.97695 +/- 0.254481 1
3 3 1 gaussian norm 0.136735 +/- 0.359372E-02 1
4 4 2 powerlaw PhoIndex 0.782479 +/- 0.117244E-01 1
5 5 2 powerlaw norm 0.261635 +/- 0.128411E-01 1
6 6 3 gaussian LineE keV 73.2738 +/- 0.292784 2
7 7 3 gaussian Sigma keV 10.0302 +/- 0.754748E-01 2
8 3 3 gaussian norm 0.136735 = par 3 2
9 8 4 powerlaw PhoIndex 0.781297 +/- 0.112345E-01 2
10 5 4 powerlaw norm 0.261635 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 360.4071 using 168 PHA bins.
Reduced chi-squared = 2.252544 for 160 degrees of freedom
Null hypothesis probability = 1.736E-17
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 ( 2.158) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.158) > 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 0.8824 photons ( 1.0566E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8862 photons ( 1.0702E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
83.32968
=====best line=====
69.2330 0.252628
=====best sigma=====
8.97449 0.254451
=====norm=====
0.136704 0.359352E-02
=====phoindx=====
0.782540 0.117244E-01
=====pow_norm=====
0.261696 0.128440E-01
=====best line=====
73.2749 0.293031
=====best sigma=====
10.0319 0.748894E-01
=====norm=====
0.136704 par
=====phoindx=====
0.781341 0.112345E-01
=====pow_norm=====
0.261696 par
=====redu_chi=====
2.252544
=====area_flux=====
0.8824
=====area_flux_f=====
0.8862
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 11 1 640 2000 1107.728 0 0.136704 0.359352E-02 8.97449 0.254451 0.782540 0.117244E-01 0.261696 0.128440E-01 0.8824 640 2000 1172.3984 0 0.136704 0.359352E-02 10.0319 0.748894E-01 0.781341 0.112345E-01 0.261696 0.128440E-01 0.8862 2.252544 0
=====redu_chi=====
286.9847
=====best line=====
112.261 0.220480
=====best sigma=====
17.9065 0.172813
=====norm=====
0.922184 0.624314E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.397 0.187425
=====best sigma=====
15.6027 0.353940E-01
=====norm=====
0.922184 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
24.89195
=====area_flux=====
0.6945
=====area_flux_f=====
0.7076
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 11 1 1600 3200 1796.176 0 0.922184 0.624314E-02 286.504 2.765008 9.50000 -1.00000 0.00000 -1.00000 0.6945 1600 3200 1782.352 0 0.922184 0.624314E-02 249.6432 0.566304 9.50000 -1.00000 0.00000 -1.00000 0.7076 24.89195 1
=====redu_chi=====
135.5160
=====best line=====
69.2322 0.252667
=====best sigma=====
8.97695 0.254481
=====norm=====
0.136735 0.359372E-02
=====phoindx=====
0.782479 0.117244E-01
=====pow_norm=====
0.261635 0.128411E-01
=====best line=====
73.2738 0.292784
=====best sigma=====
10.0302 0.754748E-01
=====norm=====
0.136735 par
=====phoindx=====
0.781297 0.112345E-01
=====pow_norm=====
0.261635 par
=====redu_chi=====
2.252544
=====area_flux=====
0.8824
=====area_flux_f=====
0.8862
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 11 1 640 2000 1107.7152 0 0.136735 0.359372E-02 8.97695 0.254481 0.782479 0.117244E-01 0.261635 0.128411E-01 0.8824 640 2000 1172.3808 0 0.136735 0.359372E-02 10.0302 0.754748E-01 0.781297 0.112345E-01 0.261635 0.128411E-01 0.8862 2.252544 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:54 12-Jun-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 2.187 +/- 5.9824E-03
Net count rate (cts/s) for file 2 2.187 +/- 5.9824E-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 = 593363.6 using 168 PHA bins.
Reduced chi-squared = 3708.523 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7452.195 using 168 PHA bins.
Reduced chi-squared = 46.57622 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1343.44 -3 84.42 15.12 0.1410 0.8472
0.3383 84.79 14.42 0.8469
1263.77 -4 77.81 8.633 7.3555E-02 0.7495
0.2174 79.66 8.858 0.7538
1222.33 -3 79.71 14.82 0.1256 0.8379
0.2971 81.90 16.46 0.8358
747.356 -1 79.81 8.989 0.1121 0.8282
0.3093 80.32 6.678 0.8297
432.188 -2 79.40 9.815 0.1182 0.8360
0.3181 80.95 9.397 0.8366
422.444 0 79.43 9.735 0.1196 0.8360
0.3181 81.18 9.744 0.8369
419.776 0 79.44 9.734 0.1207 0.8361
0.3180 81.29 9.908 0.8373
418.681 0 79.44 9.756 0.1216 0.8363
0.3180 81.34 9.993 0.8376
417.045 -1 79.43 9.901 0.1243 0.8377
0.3187 81.36 10.29 0.8391
412.598 -2 79.48 9.952 0.1257 0.8461
0.3292 81.38 10.21 0.8473
409.298 -3 79.62 10.20 0.1277 0.8700
0.3611 81.51 10.34 0.8705
405.225 -4 79.71 9.997 0.1280 0.8787
0.3768 81.57 10.32 0.8797
404.835 -5 79.68 10.12 0.1285 0.8788
0.3778 81.57 10.34 0.8803
404.821 -1 79.70 10.03 0.1284 0.8788
0.3779 81.57 10.33 0.8803
404.792 -2 79.68 10.08 0.1284 0.8788
0.3778 81.57 10.34 0.8803
404.792 0 79.68 10.07 0.1284 0.8788
0.3778 81.57 10.34 0.8803
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.29E-07 | 0.00 0.00 -0.31 0.51 -0.63 0.00 0.00 0.49
1.44E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.89E-06 | 0.00 0.02 -0.95 -0.14 0.23 0.00 0.03 -0.16
5.46E-04 | 0.02 0.05 -0.02 -0.48 -0.73 0.02 0.11 -0.46
1.80E-03 | 0.00 -0.38 0.02 0.04 0.05 0.01 0.92 0.04
5.41E-03 | 0.02 0.92 0.03 0.05 0.06 0.01 0.38 0.05
9.20E-02 | -0.56 0.02 0.00 -0.01 -0.02 -0.83 0.01 -0.01
8.00E-02 | -0.83 0.01 0.00 0.00 0.00 0.56 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 79.6846 +/- 0.289509 1
2 2 1 gaussian Sigma keV 10.0740 +/- 0.699276E-01 1
3 3 1 gaussian norm 0.128383 +/- 0.355923E-02 1
4 4 2 powerlaw PhoIndex 0.878784 +/- 0.125537E-01 1
5 5 2 powerlaw norm 0.377835 +/- 0.187949E-01 1
6 6 3 gaussian LineE keV 81.5670 +/- 0.296937 2
7 7 3 gaussian Sigma keV 10.3356 +/- 0.481151E-01 2
8 3 3 gaussian norm 0.128383 = par 3 2
9 8 4 powerlaw PhoIndex 0.880252 +/- 0.120564E-01 2
10 5 4 powerlaw norm 0.377835 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 404.7915 using 168 PHA bins.
Reduced chi-squared = 2.529947 for 160 degrees of freedom
Null hypothesis probability = 3.561E-23
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 ( 2.424) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.424) > 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 0.8422 photons ( 1.0217E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8378 photons ( 1.0201E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:54 12-Jun-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 5.360 +/- 9.3657E-03
Net count rate (cts/s) for file 2 5.360 +/- 9.3657E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.173 +/- 1.1113E-02( 59.2% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.173 +/- 1.1113E-02( 59.2% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 4238196. using 198 PHA bins.
Reduced chi-squared = 22306.30 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 67415.24 using 198 PHA bins.
Reduced chi-squared = 354.8171 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
34774.5 -3 120.8 18.83 0.3799 2.902
0.3459 118.7 18.69 2.875
34612.3 2 120.8 18.82 0.3805 2.180
1.064 118.7 18.68 2.627
34038.2 1 120.9 18.76 0.3861 2.140
1.304 118.9 18.62 2.431
29094.4 0 122.2 18.28 0.4355 1.944
2.817 120.6 18.07 2.021
16366.4 0 124.8 19.26 0.6734 1.913
2.878 124.4 18.69 2.076
13159.9 -1 121.7 19.33 1.065 2.038
1.307 121.2 19.18 2.682
12760.0 0 121.7 19.35 1.046 2.086
0.9566 121.4 19.35 6.956
12602.3 0 121.8 19.36 1.034 2.118
0.9401 121.5 19.36 9.279
12506.0 0 121.9 19.36 1.027 2.150
0.9626 121.7 19.36 9.477
12446.1 0 122.0 19.36 1.022 2.167
1.096 121.8 19.37 9.498
12404.2 0 122.1 19.37 1.019 2.178
1.270 122.0 19.37 9.499
12374.4 0 122.2 19.37 1.017 2.211
1.324 122.0 19.37 9.500
12349.9 0 122.3 19.37 1.015 2.214
1.617 122.1 19.37 9.500
12330.9 0 122.3 19.37 1.014 2.244
1.697 122.2 19.37 9.500
12323.6 0 122.3 19.37 1.013 2.264
1.915 122.2 19.37 9.500
12316.5 0 122.4 19.37 1.013 2.296
2.041 122.2 19.37 9.500
12308.6 0 122.4 19.37 1.012 2.317
2.357 122.2 19.37 9.500
12301.3 0 122.4 19.37 1.012 2.339
2.684 122.3 19.37 9.500
12297.1 0 122.4 19.37 1.012 2.349
3.220 122.3 19.37 9.500
12294.2 0 122.5 19.37 1.011 2.380
3.434 122.3 19.37 9.500
12292.5 0 122.5 19.37 1.011 2.411
3.771 122.3 19.37 9.500
12288.5 0 122.5 19.37 1.011 2.425
4.497 122.3 19.37 9.500
12284.3 0 122.5 19.37 1.010 2.443
5.196 122.3 19.37 9.500
12282.0 0 122.5 19.37 1.010 2.466
5.835 122.3 19.37 9.500
12279.8 0 122.5 19.37 1.010 2.484
6.743 122.3 19.37 9.500
12277.8 0 122.5 19.37 1.010 2.510
7.413 122.3 19.37 9.500
12277.4 0 122.5 19.37 1.010 2.527
8.576 122.3 19.37 9.500
12276.7 0 122.5 19.37 1.010 2.545
9.778 122.3 19.37 9.500
12275.9 0 122.5 19.37 1.010 2.569
10.84 122.3 19.37 9.500
12273.4 0 122.5 19.37 1.010 2.584
12.60 122.3 19.37 9.500
12256.6 0 122.5 19.37 1.007 2.626
15.62 122.1 19.37 9.500
12247.8 0 122.5 19.37 1.005 2.631
18.77 122.0 19.37 9.500
12206.5 0 122.6 19.37 1.001 2.607
21.13 122.1 19.37 9.500
12170.3 0 122.7 19.37 0.9975 2.592
22.89 122.1 19.37 9.500
12138.6 0 122.8 19.37 0.9940 2.581
24.34 122.2 19.37 9.500
12110.5 0 122.8 19.37 0.9907 2.573
25.55 122.2 19.37 9.500
12085.5 0 122.9 19.37 0.9877 2.566
26.58 122.2 19.37 9.500
12063.2 0 122.9 19.37 0.9848 2.561
27.42 122.3 19.37 9.500
12043.3 0 123.0 19.37 0.9822 2.557
28.14 122.3 19.37 9.500
12025.5 0 123.1 19.37 0.9797 2.554
28.76 122.4 19.37 9.500
12009.4 0 123.1 19.37 0.9774 2.551
29.29 122.4 19.37 9.500
11995.0 0 123.2 19.37 0.9753 2.549
29.75 122.4 19.37 9.500
11981.9 0 123.2 19.37 0.9733 2.547
30.22 122.5 19.37 9.500
11970.2 0 123.3 19.37 0.9714 2.546
30.60 122.5 19.37 9.500
11959.5 0 123.3 19.37 0.9697 2.545
30.95 122.5 19.37 9.500
11949.7 0 123.4 19.37 0.9681 2.544
31.28 122.6 19.37 9.500
11940.9 0 123.4 19.37 0.9666 2.543
31.56 122.6 19.37 9.500
11932.9 0 123.5 19.37 0.9652 2.543
31.83 122.6 19.37 9.500
11925.5 0 123.5 19.37 0.9638 2.543
32.05 122.7 19.37 9.500
11918.8 0 123.6 19.37 0.9626 2.542
32.27 122.7 19.37 9.500
11912.7 0 123.6 19.37 0.9615 2.542
32.49 122.7 19.37 9.500
11907.1 0 123.7 19.37 0.9604 2.542
32.67 122.7 19.37 9.500
11902.0 0 123.7 19.37 0.9594 2.542
32.85 122.8 19.37 9.500
11897.3 0 123.7 19.37 0.9584 2.542
33.01 122.8 19.37 9.500
11893.0 0 123.8 19.37 0.9576 2.543
33.19 122.8 19.37 9.500
11889.0 0 123.8 19.37 0.9567 2.543
33.34 122.8 19.37 9.500
11885.3 0 123.8 19.37 0.9559 2.543
33.48 122.8 19.37 9.500
11881.9 0 123.9 19.37 0.9552 2.544
33.63 122.9 19.37 9.500
11878.9 0 123.9 19.37 0.9545 2.544
33.73 122.9 19.37 9.500
11876.0 0 123.9 19.37 0.9539 2.545
33.87 122.9 19.37 9.500
11873.3 0 124.0 19.37 0.9533 2.545
34.00 122.9 19.37 9.500
11870.9 0 124.0 19.37 0.9527 2.546
34.11 122.9 19.37 9.500
11868.6 0 124.0 19.37 0.9522 2.547
34.22 122.9 19.37 9.500
11866.5 0 124.1 19.37 0.9516 2.547
34.34 123.0 19.37 9.500
11864.5 0 124.1 19.37 0.9512 2.548
34.45 123.0 19.37 9.500
11862.7 0 124.1 19.37 0.9507 2.548
34.58 123.0 19.37 9.500
11861.0 0 124.1 19.37 0.9503 2.549
34.68 123.0 19.37 9.500
11859.5 0 124.1 19.37 0.9499 2.550
34.80 123.0 19.37 9.500
11858.0 0 124.2 19.37 0.9495 2.550
34.90 123.0 19.37 9.500
11856.7 0 124.2 19.37 0.9492 2.551
35.02 123.0 19.37 9.500
11855.4 0 124.2 19.37 0.9488 2.551
35.14 123.0 19.37 9.500
11854.3 0 124.2 19.37 0.9485 2.552
35.21 123.0 19.37 9.500
11853.1 0 124.2 19.37 0.9482 2.553
35.33 123.1 19.37 9.500
11852.1 0 124.3 19.37 0.9479 2.554
35.45 123.1 19.37 9.500
11851.2 0 124.3 19.37 0.9477 2.554
35.57 123.1 19.37 9.500
11850.3 0 124.3 19.37 0.9474 2.555
35.71 123.1 19.37 9.500
11849.4 0 124.3 19.37 0.9472 2.556
35.82 123.1 19.37 9.500
11848.7 0 124.3 19.37 0.9469 2.557
35.92 123.1 19.37 9.500
11848.0 0 124.3 19.37 0.9467 2.557
36.04 123.1 19.37 9.500
11847.3 0 124.4 19.37 0.9465 2.558
36.13 123.1 19.37 9.500
11846.6 0 124.4 19.37 0.9463 2.559
36.24 123.1 19.37 9.500
11846.0 0 124.4 19.37 0.9461 2.560
36.36 123.1 19.37 9.500
11845.5 0 124.4 19.37 0.9460 2.560
36.47 123.1 19.37 9.500
11845.0 0 124.4 19.37 0.9458 2.561
36.57 123.1 19.37 9.500
11844.5 0 124.4 19.37 0.9456 2.562
36.69 123.1 19.37 9.500
11844.0 0 124.4 19.37 0.9455 2.563
36.81 123.1 19.37 9.500
11843.5 0 124.4 19.37 0.9454 2.563
36.92 123.1 19.37 9.500
11843.1 0 124.5 19.37 0.9452 2.564
37.05 123.1 19.37 9.500
11842.7 0 124.5 19.37 0.9451 2.565
37.18 123.1 19.37 9.500
11842.3 0 124.5 19.37 0.9450 2.566
37.33 123.1 19.37 9.500
11842.0 0 124.5 19.37 0.9449 2.566
37.45 123.1 19.37 9.500
11841.6 0 124.5 19.37 0.9448 2.567
37.59 123.2 19.37 9.500
11841.3 0 124.5 19.37 0.9447 2.568
37.72 123.2 19.37 9.500
11841.0 0 124.5 19.37 0.9446 2.568
37.86 123.2 19.37 9.500
11840.7 0 124.5 19.37 0.9445 2.569
37.99 123.2 19.37 9.500
11840.5 0 124.5 19.37 0.9444 2.570
38.11 123.2 19.37 9.500
11840.2 0 124.5 19.37 0.9443 2.571
38.23 123.2 19.37 9.500
11840.0 0 124.5 19.37 0.9442 2.571
38.36 123.2 19.37 9.500
11839.8 0 124.5 19.37 0.9441 2.572
38.47 123.2 19.37 9.500
11839.5 0 124.5 19.37 0.9441 2.573
38.63 123.2 19.37 9.500
11839.3 0 124.5 19.37 0.9440 2.574
38.79 123.2 19.37 9.500
11839.1 0 124.6 19.37 0.9439 2.574
38.91 123.2 19.37 9.500
11838.9 0 124.6 19.37 0.9439 2.575
39.05 123.2 19.37 9.500
11838.7 0 124.6 19.37 0.9438 2.576
39.19 123.2 19.37 9.500
11838.5 0 124.6 19.37 0.9437 2.577
39.31 123.2 19.37 9.500
11838.4 0 124.6 19.37 0.9437 2.577
39.48 123.2 19.37 9.500
11838.2 0 124.6 19.37 0.9436 2.578
39.62 123.2 19.37 9.500
11838.1 0 124.6 19.37 0.9436 2.579
39.77 123.2 19.37 9.500
11837.9 0 124.6 19.37 0.9436 2.579
39.92 123.2 19.37 9.500
11837.7 0 124.6 19.37 0.9435 2.580
40.08 123.2 19.37 9.500
11837.6 0 124.6 19.37 0.9435 2.581
40.21 123.2 19.37 9.500
11837.5 0 124.6 19.37 0.9434 2.581
40.37 123.2 19.37 9.500
11837.4 0 124.6 19.37 0.9434 2.582
40.51 123.2 19.37 9.500
11837.2 0 124.6 19.37 0.9433 2.583
40.66 123.2 19.37 9.500
11837.2 0 124.6 19.37 0.9433 2.584
40.80 123.2 19.37 9.500
11837.0 0 124.6 19.37 0.9433 2.584
40.95 123.2 19.37 9.500
11836.9 0 124.6 19.37 0.9432 2.585
41.11 123.2 19.37 9.500
11836.8 0 124.6 19.37 0.9432 2.586
41.23 123.2 19.37 9.500
11836.7 0 124.6 19.37 0.9432 2.587
41.38 123.2 19.37 9.500
11836.6 0 124.6 19.37 0.9431 2.587
41.55 123.2 19.37 9.500
11836.5 0 124.6 19.37 0.9431 2.588
41.72 123.2 19.37 9.500
11836.4 0 124.6 19.37 0.9431 2.589
41.88 123.2 19.37 9.500
11836.3 0 124.6 19.37 0.9430 2.590
42.03 123.2 19.37 9.500
11836.3 0 124.6 19.37 0.9430 2.590
42.20 123.2 19.37 9.500
11836.2 0 124.6 19.37 0.9430 2.591
42.35 123.2 19.37 9.500
11836.1 0 124.6 19.37 0.9430 2.592
42.53 123.2 19.37 9.500
11836.0 0 124.6 19.37 0.9429 2.592
42.69 123.2 19.37 9.500
11835.9 0 124.6 19.37 0.9429 2.593
42.83 123.2 19.37 9.500
11835.9 0 124.6 19.37 0.9429 2.594
43.01 123.2 19.37 9.500
11835.8 0 124.6 19.37 0.9429 2.595
43.18 123.2 19.37 9.500
11835.7 0 124.6 19.37 0.9429 2.595
43.36 123.2 19.37 9.500
11835.6 0 124.6 19.37 0.9428 2.596
43.50 123.2 19.37 9.500
11835.5 0 124.6 19.37 0.9428 2.597
43.66 123.2 19.37 9.500
11835.5 0 124.6 19.37 0.9428 2.597
43.85 123.2 19.37 9.500
11835.5 0 124.7 19.37 0.9428 2.598
44.02 123.2 19.37 9.500
11835.4 0 124.7 19.37 0.9428 2.599
44.20 123.2 19.37 9.500
11835.3 0 124.7 19.37 0.9428 2.600
44.33 123.2 19.37 9.500
11835.2 0 124.7 19.37 0.9427 2.600
44.49 123.2 19.37 9.500
11835.2 0 124.7 19.37 0.9427 2.601
44.65 123.2 19.37 9.500
11835.1 0 124.7 19.37 0.9427 2.602
44.82 123.2 19.37 9.500
11835.1 0 124.7 19.37 0.9427 2.603
44.98 123.2 19.37 9.500
11835.0 0 124.7 19.37 0.9427 2.603
45.17 123.2 19.37 9.500
11835.0 0 124.7 19.37 0.9427 2.604
45.35 123.2 19.37 9.500
11834.9 0 124.7 19.37 0.9427 2.605
45.53 123.2 19.37 9.500
11834.9 0 124.7 19.37 0.9427 2.605
45.72 123.2 19.37 9.500
11834.8 0 124.7 19.37 0.9427 2.606
45.90 123.2 19.37 9.500
11834.8 0 124.7 19.37 0.9426 2.607
46.07 123.2 19.37 9.500
11834.7 0 124.7 19.37 0.9426 2.607
46.27 123.2 19.37 9.500
11834.6 0 124.7 19.37 0.9426 2.608
46.48 123.2 19.37 9.500
11834.6 0 124.7 19.37 0.9426 2.609
46.66 123.2 19.37 9.500
11834.5 0 124.7 19.37 0.9426 2.610
46.81 123.2 19.37 9.500
11834.5 0 124.7 19.37 0.9426 2.610
47.02 123.2 19.37 9.500
11834.4 0 124.7 19.37 0.9426 2.611
47.21 123.2 19.37 9.500
11834.4 0 124.7 19.37 0.9426 2.612
47.41 123.2 19.37 9.500
11834.3 0 124.7 19.37 0.9426 2.612
47.60 123.2 19.37 9.500
11834.3 0 124.7 19.37 0.9426 2.613
47.78 123.2 19.37 9.500
11834.2 0 124.7 19.37 0.9426 2.614
47.98 123.2 19.37 9.500
11834.2 0 124.7 19.37 0.9425 2.614
48.16 123.2 19.37 9.500
11834.2 0 124.7 19.37 0.9425 2.615
48.33 123.2 19.37 9.500
11834.1 0 124.7 19.37 0.9426 2.617
48.69 123.2 19.37 9.500
11834.0 0 124.7 19.37 0.9425 2.617
48.88 123.2 19.37 9.500
11834.0 0 124.7 19.37 0.9425 2.618
49.05 123.2 19.37 9.500
11833.9 0 124.7 19.37 0.9425 2.619
49.24 123.2 19.37 9.500
11833.9 0 124.7 19.37 0.9425 2.619
49.43 123.2 19.37 9.500
11833.9 0 124.7 19.37 0.9425 2.620
49.64 123.2 19.37 9.500
11833.8 0 124.7 19.37 0.9425 2.621
49.84 123.2 19.37 9.500
11833.8 0 124.7 19.37 0.9425 2.622
50.07 123.2 19.37 9.500
11833.7 0 124.7 19.37 0.9425 2.622
50.28 123.2 19.37 9.500
11833.7 0 124.7 19.37 0.9425 2.623
50.50 123.2 19.37 9.500
11833.7 0 124.7 19.37 0.9425 2.624
50.68 123.2 19.37 9.500
11833.6 0 124.7 19.37 0.9425 2.624
50.87 123.2 19.37 9.500
11833.6 0 124.7 19.37 0.9424 2.625
51.05 123.2 19.37 9.500
11833.5 0 124.7 19.37 0.9424 2.626
51.25 123.2 19.37 9.500
11833.5 0 124.7 19.37 0.9424 2.626
51.45 123.2 19.37 9.500
11833.5 0 124.7 19.37 0.9424 2.627
51.65 123.2 19.37 9.500
11833.4 0 124.7 19.37 0.9424 2.628
51.84 123.2 19.37 9.500
11833.4 0 124.7 19.37 0.9424 2.628
52.08 123.2 19.37 9.500
11833.3 0 124.7 19.37 0.9424 2.629
52.29 123.2 19.37 9.500
11833.3 0 124.7 19.37 0.9424 2.630
52.49 123.2 19.37 9.500
11833.2 0 124.7 19.37 0.9424 2.630
52.71 123.2 19.37 9.500
11833.2 0 124.7 19.37 0.9424 2.631
52.89 123.2 19.37 9.500
11833.2 0 124.7 19.37 0.9424 2.632
53.08 123.2 19.37 9.500
11833.1 0 124.7 19.37 0.9424 2.633
53.28 123.2 19.37 9.500
11833.1 0 124.7 19.37 0.9424 2.633
53.47 123.2 19.37 9.500
11833.1 0 124.7 19.37 0.9424 2.634
53.69 123.2 19.37 9.500
11833.0 0 124.7 19.37 0.9424 2.635
53.92 123.2 19.37 9.500
11833.0 0 124.7 19.37 0.9424 2.635
54.15 123.2 19.37 9.500
11833.0 0 124.7 19.37 0.9424 2.636
54.36 123.2 19.37 9.500
11832.9 0 124.7 19.37 0.9424 2.637
54.60 123.2 19.37 9.500
11832.9 0 124.7 19.37 0.9424 2.637
54.77 123.2 19.37 9.500
11832.8 0 124.7 19.37 0.9424 2.639
55.19 123.2 19.37 9.500
11832.7 0 124.7 19.37 0.9424 2.640
55.39 123.2 19.37 9.500
11832.7 0 124.7 19.37 0.9424 2.640
55.60 123.2 19.37 9.500
11832.7 0 124.7 19.37 0.9423 2.641
55.80 123.2 19.37 9.500
11832.6 0 124.7 19.37 0.9423 2.642
56.01 123.2 19.37 9.500
11832.6 1 124.7 19.37 0.9423 2.642
56.10 123.2 19.37 9.500
11832.5 0 124.7 19.37 0.9423 2.642
56.33 123.2 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.47E-05 | 0.00 0.00 -1.00 0.03 0.00 0.00 0.00
7.78E-04 | 0.03 0.01 -0.03 -1.00 0.00 -0.01 0.00
2.64E-02 | -0.99 -0.02 0.00 -0.03 0.00 -0.13 -0.01
2.15E-02 | -0.13 0.00 0.00 -0.01 0.00 0.99 0.05
2.76E+00 | 0.00 0.30 0.00 0.00 0.00 0.05 -0.95
6.48E+00 | 0.02 -0.95 0.00 0.00 0.00 0.02 -0.30
1.84E+05 | 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 124.680 +/- 0.186047 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.48127 1
3 3 1 gaussian norm 0.942275 +/- 0.647134E-02 1
4 4 2 powerlaw PhoIndex 2.64224 +/- 1.53614 1
5 5 2 powerlaw norm 56.3256 +/- 428.435 1
6 6 3 gaussian LineE keV 123.217 +/- 0.185791 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.84180 2
8 3 3 gaussian norm 0.942275 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 56.3256 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 11832.49 using 198 PHA bins.
Reduced chi-squared = 62.27628 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 ( 60.063) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 60.063) > 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 200. reset by matrix bound to 198.
Model flux 0.8588 photons ( 1.7692E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8335 photons ( 1.7023E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:55 12-Jun-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 2.187 +/- 5.9824E-03
Net count rate (cts/s) for file 2 2.187 +/- 5.9824E-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 = 666560.9 using 168 PHA bins.
Reduced chi-squared = 4166.006 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12797.59 using 168 PHA bins.
Reduced chi-squared = 79.98493 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1237.45 -3 86.45 12.92 0.1216 0.8901
0.3996 86.77 11.87 0.8868
585.700 -4 77.78 12.59 0.1246 0.8460
0.3258 80.13 11.19 0.8486
478.610 -5 81.21 9.685 0.1169 0.8895
0.3914 82.01 9.919 0.8890
421.477 0 80.48 9.858 0.1209 0.8878
0.3933 81.86 9.974 0.8882
411.198 0 80.12 9.903 0.1232 0.8873
0.3936 81.77 10.02 0.8882
408.167 0 79.94 9.926 0.1245 0.8872
0.3934 81.72 10.13 0.8884
406.933 0 79.84 9.949 0.1255 0.8873
0.3932 81.69 10.18 0.8886
406.306 0 79.80 9.973 0.1263 0.8873
0.3929 81.67 10.21 0.8887
405.462 -1 79.73 10.14 0.1285 0.8874
0.3920 81.63 10.36 0.8889
405.150 -2 79.74 10.06 0.1289 0.8857
0.3890 81.61 10.36 0.8873
404.835 -3 79.70 10.08 0.1286 0.8806
0.3810 81.58 10.34 0.8823
404.808 -4 79.69 10.04 0.1283 0.8787
0.3779 81.57 10.33 0.8803
404.792 -5 79.69 10.07 0.1284 0.8787
0.3778 81.57 10.34 0.8802
404.792 1 79.69 10.07 0.1284 0.8787
0.3778 81.57 10.34 0.8802
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.29E-07 | 0.00 0.00 -0.31 0.51 -0.63 0.00 0.00 0.49
1.44E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.89E-06 | 0.00 0.02 -0.95 -0.14 0.23 0.00 0.03 -0.16
5.46E-04 | 0.02 0.05 -0.02 -0.48 -0.73 0.02 0.11 -0.46
1.81E-03 | 0.00 -0.37 0.02 0.04 0.05 0.01 0.92 0.04
5.59E-03 | 0.02 0.93 0.03 0.05 0.06 0.01 0.36 0.05
9.20E-02 | -0.56 0.02 0.00 -0.01 -0.02 -0.83 0.01 -0.01
7.99E-02 | -0.83 0.01 0.00 0.00 0.00 0.56 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 79.6855 +/- 0.289108 1
2 2 1 gaussian Sigma keV 10.0665 +/- 0.712659E-01 1
3 3 1 gaussian norm 0.128364 +/- 0.355779E-02 1
4 4 2 powerlaw PhoIndex 0.878723 +/- 0.125513E-01 1
5 5 2 powerlaw norm 0.377752 +/- 0.187876E-01 1
6 6 3 gaussian LineE keV 81.5669 +/- 0.296954 2
7 7 3 gaussian Sigma keV 10.3353 +/- 0.481114E-01 2
8 3 3 gaussian norm 0.128364 = par 3 2
9 8 4 powerlaw PhoIndex 0.880196 +/- 0.120542E-01 2
10 5 4 powerlaw norm 0.377752 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 404.7918 using 168 PHA bins.
Reduced chi-squared = 2.529949 for 160 degrees of freedom
Null hypothesis probability = 3.561E-23
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 ( 2.424) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.424) > 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 0.8422 photons ( 1.0217E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8378 photons ( 1.0201E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
46.57622
=====best line=====
79.6846 0.289509
=====best sigma=====
10.0740 0.699276E-01
=====norm=====
0.128383 0.355923E-02
=====phoindx=====
0.878784 0.125537E-01
=====pow_norm=====
0.377835 0.187949E-01
=====best line=====
81.5670 0.296937
=====best sigma=====
10.3356 0.481151E-01
=====norm=====
0.128383 par
=====phoindx=====
0.880252 0.120564E-01
=====pow_norm=====
0.377835 par
=====redu_chi=====
2.529947
=====area_flux=====
0.8422
=====area_flux_f=====
0.8378
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 12 1 640 2000 1274.9536 0 0.128383 0.355923E-02 10.0740 0.699276E-01 0.878784 0.125537E-01 0.377835 0.187949E-01 0.8422 640 2000 1305.072 0 0.128383 0.355923E-02 10.3356 0.481151E-01 0.880252 0.120564E-01 0.377835 0.187949E-01 0.8378 2.529947 0
=====redu_chi=====
354.8171
=====best line=====
124.680 0.186047
=====best sigma=====
19.3655 2.48127
=====norm=====
0.942275 0.647134E-02
=====phoindx=====
2.64224 1.53614
=====pow_norm=====
56.3256 428.435
=====best line=====
123.217 0.185791
=====best sigma=====
19.3655 1.84180
=====norm=====
0.942275 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
56.3256 par
=====redu_chi=====
62.27628
=====area_flux=====
0.8588
=====area_flux_f=====
0.8335
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 12 1 1600 3200 1994.88 0 0.942275 0.647134E-02 309.848 39.70032 2.64224 1.53614 56.3256 428.435 0.8588 1600 3200 1971.472 0 0.942275 0.647134E-02 309.848 29.4688 9.50000 -1.00000 56.3256 428.435 0.8335 62.27628 1
=====redu_chi=====
79.98493
=====best line=====
79.6855 0.289108
=====best sigma=====
10.0665 0.712659E-01
=====norm=====
0.128364 0.355779E-02
=====phoindx=====
0.878723 0.125513E-01
=====pow_norm=====
0.377752 0.187876E-01
=====best line=====
81.5669 0.296954
=====best sigma=====
10.3353 0.481114E-01
=====norm=====
0.128364 par
=====phoindx=====
0.880196 0.120542E-01
=====pow_norm=====
0.377752 par
=====redu_chi=====
2.529949
=====area_flux=====
0.8422
=====area_flux_f=====
0.8378
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 12 1 640 2000 1274.968 0 0.128364 0.355779E-02 10.0665 0.712659E-01 0.878723 0.125513E-01 0.377752 0.187876E-01 0.8422 640 2000 1305.0704 0 0.128364 0.355779E-02 10.3353 0.481114E-01 0.880196 0.120542E-01 0.377752 0.187876E-01 0.8378 2.529949 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:55 12-Jun-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 3.273 +/- 7.3188E-03
Net count rate (cts/s) for file 2 3.273 +/- 7.3188E-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 = 221805.6 using 168 PHA bins.
Reduced chi-squared = 1386.285 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 6603.927 using 168 PHA bins.
Reduced chi-squared = 41.27454 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1305.76 -3 86.96 12.85 0.1935 0.8068
0.4518 88.02 12.36 0.8066
537.071 -4 83.86 9.873 0.1792 0.8092
0.4376 86.29 9.968 0.8098
525.063 0 84.08 9.943 0.1813 0.8095
0.4371 86.46 10.83 0.8100
518.183 0 84.19 10.11 0.1839 0.8098
0.4367 86.52 10.68 0.8103
513.029 -1 84.27 10.30 0.1900 0.8111
0.4365 86.55 10.78 0.8115
509.824 -2 84.30 10.36 0.1934 0.8171
0.4459 86.57 10.90 0.8173
506.492 -3 84.40 10.51 0.1977 0.8366
0.4804 86.66 11.04 0.8363
503.422 -4 84.46 10.55 0.1996 0.8459
0.5006 86.71 11.08 0.8458
502.970 -5 84.47 10.54 0.1996 0.8460
0.5021 86.71 11.08 0.8463
502.970 -6 84.47 10.55 0.1997 0.8460
0.5022 86.71 11.08 0.8464
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.18E-07 | 0.00 0.00 -0.22 0.58 -0.55 0.00 0.00 0.56
9.42E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.78E-06 | 0.00 0.05 -0.97 -0.10 0.16 0.00 0.04 -0.11
5.42E-04 | 0.02 0.23 -0.03 -0.39 -0.79 0.02 0.17 -0.37
1.05E-03 | 0.00 -0.74 -0.01 -0.03 -0.04 0.01 0.67 -0.02
3.02E-03 | 0.01 -0.63 -0.08 -0.12 -0.22 0.01 -0.72 -0.12
6.71E-02 | -0.40 0.00 0.00 -0.01 -0.03 -0.92 0.00 -0.01
5.63E-02 | 0.92 0.00 0.00 0.01 0.01 -0.40 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 84.4722 +/- 0.240739 1
2 2 1 gaussian Sigma keV 10.5471 +/- 0.425770E-01 1
3 3 1 gaussian norm 0.199674 +/- 0.515310E-02 1
4 4 2 powerlaw PhoIndex 0.846008 +/- 0.119753E-01 1
5 5 2 powerlaw norm 0.502210 +/- 0.232939E-01 1
6 6 3 gaussian LineE keV 86.7121 +/- 0.255721 2
7 7 3 gaussian Sigma keV 11.0789 +/- 0.452541E-01 2
8 3 3 gaussian norm 0.199674 = par 3 2
9 8 4 powerlaw PhoIndex 0.846383 +/- 0.115088E-01 2
10 5 4 powerlaw norm 0.502210 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 502.9695 using 168 PHA bins.
Reduced chi-squared = 3.143560 for 160 degrees of freedom
Null hypothesis probability = 4.295E-37
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 ( 3.012) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.012) > 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 1.291 photons ( 1.5859E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.289 photons ( 1.5908E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:56 12-Jun-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 7.506 +/- 1.1083E-02
Net count rate (cts/s) for file 2 7.506 +/- 1.1083E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.233 +/- 1.3282E-02( 56.4% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.233 +/- 1.3282E-02( 56.4% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 2773412. using 198 PHA bins.
Reduced chi-squared = 14596.91 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 87532.33 using 198 PHA bins.
Reduced chi-squared = 460.6965 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
45048.4 -3 117.1 18.71 0.5480 2.845
0.4872 121.3 18.39 2.831
44888.1 2 117.2 18.70 0.5487 2.240
1.301 121.3 18.38 2.638
44130.2 1 117.4 18.65 0.5561 2.165
1.859 121.4 18.34 2.400
37617.9 0 119.4 18.18 0.6212 1.901
4.621 122.7 18.04 2.070
21565.6 0 124.4 19.06 0.9355 1.890
4.790 126.1 18.90 2.112
17926.4 -1 122.3 19.30 1.476 1.951
1.334 123.6 19.23 2.790
17276.8 0 122.5 19.34 1.445 1.953
1.350 123.8 19.34 7.563
16951.9 0 122.7 19.36 1.425 1.951
1.456 123.9 19.36 9.290
16768.4 0 123.0 19.37 1.412 1.960
1.486 124.1 19.37 9.486
16653.1 0 123.2 19.37 1.405 1.965
1.556 124.3 19.37 9.497
16581.8 0 123.3 19.37 1.400 1.969
1.634 124.4 19.37 9.499
16530.4 0 123.4 19.37 1.397 1.982
1.648 124.5 19.37 9.500
16491.9 0 123.6 19.37 1.394 1.998
1.653 124.6 19.37 9.500
16466.2 0 123.6 19.37 1.392 2.013
1.672 124.6 19.37 9.500
16444.3 0 123.7 19.37 1.391 2.018
1.793 124.7 19.37 9.500
16436.1 0 123.8 19.37 1.391 2.024
1.901 124.7 19.37 9.500
16423.1 0 123.8 19.37 1.390 2.038
1.936 124.7 19.37 9.500
16414.4 0 123.8 19.37 1.390 2.044
2.057 124.7 19.37 9.500
16408.5 0 123.9 19.37 1.389 2.061
2.076 124.7 19.37 9.500
16399.7 0 123.9 19.37 1.389 2.067
2.228 124.8 19.37 9.500
16398.3 0 123.9 19.37 1.388 2.078
2.320 124.8 19.37 9.500
16332.6 0 124.0 19.37 1.382 2.065
2.488 124.8 19.37 9.500
16275.2 0 124.0 19.37 1.376 2.055
2.630 124.8 19.37 9.500
16225.0 0 124.1 19.37 1.370 2.047
2.745 124.9 19.37 9.500
16181.0 0 124.1 19.37 1.365 2.041
2.842 124.9 19.37 9.500
16142.1 0 124.2 19.37 1.360 2.036
2.927 125.0 19.37 9.500
16107.6 0 124.3 19.37 1.355 2.031
2.999 125.0 19.37 9.500
16077.1 0 124.3 19.37 1.351 2.028
3.061 125.0 19.37 9.500
16049.9 0 124.4 19.37 1.347 2.026
3.113 125.1 19.37 9.500
16025.7 0 124.4 19.37 1.344 2.023
3.163 125.1 19.37 9.500
16004.1 0 124.5 19.37 1.340 2.021
3.208 125.2 19.37 9.500
15984.8 0 124.6 19.37 1.337 2.020
3.249 125.2 19.37 9.500
15967.4 0 124.6 19.37 1.335 2.018
3.283 125.2 19.37 9.500
15951.8 0 124.7 19.37 1.332 2.017
3.313 125.3 19.37 9.500
15925.2 0 124.8 19.37 1.327 2.016
3.372 125.3 19.37 9.500
15913.8 0 124.8 19.37 1.325 2.015
3.397 125.4 19.37 9.500
15903.5 0 124.8 19.37 1.323 2.015
3.420 125.4 19.37 9.500
15894.2 0 124.9 19.37 1.321 2.014
3.438 125.4 19.37 9.500
15885.7 0 124.9 19.37 1.319 2.014
3.457 125.4 19.37 9.500
15878.0 0 125.0 19.37 1.318 2.014
3.476 125.4 19.37 9.500
15871.0 0 125.0 19.37 1.316 2.014
3.493 125.5 19.37 9.500
15864.6 0 125.0 19.37 1.315 2.014
3.507 125.5 19.37 9.500
15858.8 0 125.1 19.37 1.314 2.014
3.522 125.5 19.37 9.500
15853.5 0 125.1 19.37 1.312 2.014
3.535 125.5 19.37 9.500
15848.6 0 125.1 19.37 1.311 2.015
3.549 125.5 19.37 9.500
15844.1 0 125.2 19.37 1.310 2.015
3.559 125.6 19.37 9.500
15840.0 0 125.2 19.37 1.309 2.015
3.569 125.6 19.37 9.500
15836.2 0 125.2 19.37 1.308 2.015
3.583 125.6 19.37 9.500
15832.7 0 125.3 19.37 1.308 2.016
3.595 125.6 19.37 9.500
15829.5 0 125.3 19.37 1.307 2.016
3.606 125.6 19.37 9.500
15826.6 0 125.3 19.37 1.306 2.016
3.618 125.6 19.37 9.500
15823.9 0 125.3 19.37 1.305 2.017
3.630 125.7 19.37 9.500
15821.4 0 125.4 19.37 1.305 2.017
3.637 125.7 19.37 9.500
15819.0 0 125.4 19.37 1.304 2.018
3.647 125.7 19.37 9.500
15816.9 0 125.4 19.37 1.303 2.018
3.655 125.7 19.37 9.500
15814.9 0 125.4 19.37 1.303 2.019
3.666 125.7 19.37 9.500
15813.1 0 125.5 19.37 1.302 2.019
3.676 125.7 19.37 9.500
15811.4 0 125.5 19.37 1.302 2.020
3.685 125.7 19.37 9.500
15809.8 0 125.5 19.37 1.301 2.020
3.693 125.7 19.37 9.500
15808.3 0 125.5 19.37 1.301 2.021
3.704 125.7 19.37 9.500
15807.0 0 125.5 19.37 1.301 2.021
3.714 125.7 19.37 9.500
15805.7 0 125.5 19.37 1.300 2.022
3.722 125.8 19.37 9.500
15804.6 0 125.6 19.37 1.300 2.022
3.731 125.8 19.37 9.500
15803.4 0 125.6 19.37 1.300 2.023
3.742 125.8 19.37 9.500
15802.4 0 125.6 19.37 1.299 2.023
3.751 125.8 19.37 9.500
15801.5 0 125.6 19.37 1.299 2.024
3.756 125.8 19.37 9.500
15800.5 0 125.6 19.37 1.299 2.024
3.767 125.8 19.37 9.500
15799.7 0 125.6 19.37 1.298 2.025
3.774 125.8 19.37 9.500
15798.9 0 125.6 19.37 1.298 2.026
3.781 125.8 19.37 9.500
15798.2 0 125.7 19.37 1.298 2.026
3.795 125.8 19.37 9.500
15797.4 0 125.7 19.37 1.298 2.026
3.804 125.8 19.37 9.500
15796.9 0 125.7 19.37 1.297 2.027
3.810 125.8 19.37 9.500
15796.2 0 125.7 19.37 1.297 2.028
3.822 125.8 19.37 9.500
15795.7 0 125.7 19.37 1.297 2.028
3.828 125.8 19.37 9.500
15795.1 0 125.7 19.37 1.297 2.029
3.836 125.8 19.37 9.500
15794.6 0 125.7 19.37 1.297 2.029
3.847 125.8 19.37 9.500
15794.1 0 125.7 19.37 1.297 2.030
3.860 125.8 19.37 9.500
15793.7 0 125.7 19.37 1.296 2.030
3.868 125.8 19.37 9.500
15793.3 0 125.7 19.37 1.296 2.031
3.880 125.8 19.37 9.500
15792.9 0 125.7 19.37 1.296 2.031
3.889 125.8 19.37 9.500
15792.5 0 125.8 19.37 1.296 2.032
3.897 125.9 19.37 9.500
15792.1 0 125.8 19.37 1.296 2.033
3.906 125.9 19.37 9.500
15791.8 0 125.8 19.37 1.296 2.033
3.917 125.9 19.37 9.500
15791.5 0 125.8 19.37 1.296 2.034
3.926 125.9 19.37 9.500
15791.2 0 125.8 19.37 1.296 2.034
3.939 125.9 19.37 9.500
15791.0 0 125.8 19.37 1.296 2.035
3.948 125.9 19.37 9.500
15790.7 0 125.8 19.37 1.295 2.035
3.961 125.9 19.37 9.500
15790.4 0 125.8 19.37 1.295 2.036
3.972 125.9 19.37 9.500
15790.2 0 125.8 19.37 1.295 2.036
3.982 125.9 19.37 9.500
15790.0 0 125.8 19.37 1.295 2.037
3.993 125.9 19.37 9.500
15789.8 0 125.8 19.37 1.295 2.037
4.005 125.9 19.37 9.500
15789.5 0 125.8 19.37 1.295 2.038
4.015 125.9 19.37 9.500
15789.3 0 125.8 19.37 1.295 2.038
4.027 125.9 19.37 9.500
15789.2 0 125.8 19.37 1.295 2.039
4.034 125.9 19.37 9.500
15789.0 0 125.8 19.37 1.295 2.039
4.045 125.9 19.37 9.500
15788.8 0 125.8 19.37 1.295 2.040
4.054 125.9 19.37 9.500
15788.6 0 125.8 19.37 1.295 2.041
4.066 125.9 19.37 9.500
15788.5 0 125.8 19.37 1.295 2.041
4.074 125.9 19.37 9.500
15788.4 0 125.8 19.37 1.295 2.042
4.085 125.9 19.37 9.500
15788.2 0 125.8 19.37 1.295 2.042
4.097 125.9 19.37 9.500
15788.1 0 125.8 19.37 1.295 2.043
4.111 125.9 19.37 9.500
15788.0 0 125.8 19.37 1.294 2.043
4.122 125.9 19.37 9.500
15787.8 0 125.9 19.37 1.294 2.044
4.133 125.9 19.37 9.500
15787.7 0 125.9 19.37 1.294 2.044
4.145 125.9 19.37 9.500
15787.5 0 125.9 19.37 1.294 2.045
4.156 125.9 19.37 9.500
15787.5 0 125.9 19.37 1.294 2.045
4.166 125.9 19.37 9.500
15787.4 0 125.9 19.37 1.294 2.046
4.176 125.9 19.37 9.500
15787.3 0 125.9 19.37 1.294 2.047
4.186 125.9 19.37 9.500
15787.2 0 125.9 19.37 1.294 2.047
4.198 125.9 19.37 9.500
15787.1 0 125.9 19.37 1.294 2.048
4.210 125.9 19.37 9.500
15787.0 0 125.9 19.37 1.294 2.048
4.224 125.9 19.37 9.500
15786.9 0 125.9 19.37 1.294 2.049
4.235 125.9 19.37 9.500
15786.8 0 125.9 19.37 1.294 2.049
4.245 125.9 19.37 9.500
15786.8 0 125.9 19.37 1.294 2.050
4.258 125.9 19.37 9.500
15786.6 0 125.9 19.37 1.294 2.050
4.266 125.9 19.37 9.500
15786.5 0 125.9 19.37 1.294 2.051
4.278 125.9 19.37 9.500
15786.5 0 125.9 19.37 1.294 2.052
4.288 125.9 19.37 9.500
15786.4 0 125.9 19.37 1.294 2.052
4.302 125.9 19.37 9.500
15786.3 0 125.9 19.37 1.294 2.053
4.314 125.9 19.37 9.500
15786.2 0 125.9 19.37 1.294 2.053
4.328 125.9 19.37 9.500
15786.2 0 125.9 19.37 1.294 2.054
4.339 125.9 19.37 9.500
15786.1 0 125.9 19.37 1.294 2.054
4.348 125.9 19.37 9.500
15786.1 0 125.9 19.37 1.294 2.055
4.359 125.9 19.37 9.500
15786.0 0 125.9 19.37 1.294 2.055
4.371 125.9 19.37 9.500
15785.9 0 125.9 19.37 1.294 2.056
4.384 125.9 19.37 9.500
15785.9 0 125.9 19.37 1.294 2.056
4.400 125.9 19.37 9.500
15785.8 0 125.9 19.37 1.294 2.057
4.414 125.9 19.37 9.500
15785.7 0 125.9 19.37 1.294 2.057
4.429 125.9 19.37 9.500
15785.7 0 125.9 19.37 1.294 2.058
4.439 125.9 19.37 9.500
15785.6 0 125.9 19.37 1.294 2.058
4.452 125.9 19.37 9.500
15785.6 0 125.9 19.37 1.294 2.059
4.469 125.9 19.37 9.500
15785.5 0 125.9 19.37 1.294 2.059
4.481 125.9 19.37 9.500
15785.5 0 125.9 19.37 1.294 2.060
4.493 125.9 19.37 9.500
15785.4 0 125.9 19.37 1.294 2.060
4.508 125.9 19.37 9.500
15785.4 0 125.9 19.37 1.294 2.061
4.520 125.9 19.37 9.500
15785.3 0 125.9 19.37 1.294 2.061
4.535 125.9 19.37 9.500
15785.3 0 125.9 19.37 1.294 2.062
4.547 125.9 19.37 9.500
15785.2 0 125.9 19.37 1.294 2.063
4.568 125.9 19.37 9.500
15785.1 0 125.9 19.37 1.294 2.063
4.583 125.9 19.37 9.500
15785.0 0 125.9 19.37 1.294 2.064
4.592 125.9 19.37 9.500
15785.0 0 125.9 19.37 1.294 2.064
4.610 125.9 19.37 9.500
15784.9 0 125.9 19.37 1.294 2.065
4.622 125.9 19.37 9.500
15784.9 0 125.9 19.37 1.294 2.066
4.632 125.9 19.37 9.500
15784.9 0 125.9 19.37 1.294 2.066
4.646 125.9 19.37 9.500
15784.8 0 125.9 19.37 1.294 2.067
4.658 125.9 19.37 9.500
15784.8 0 125.9 19.37 1.294 2.067
4.672 125.9 19.37 9.500
15784.7 0 125.9 19.37 1.294 2.068
4.686 125.9 19.37 9.500
15784.6 0 125.9 19.37 1.294 2.068
4.701 125.9 19.37 9.500
15784.6 0 125.9 19.37 1.294 2.069
4.714 125.9 19.37 9.500
15784.5 0 125.9 19.37 1.294 2.070
4.742 125.9 19.37 9.500
15784.5 0 125.9 19.37 1.294 2.070
4.756 125.9 19.37 9.500
15784.5 0 125.9 19.37 1.294 2.071
4.770 125.9 19.37 9.500
15784.4 0 125.9 19.37 1.294 2.071
4.783 125.9 19.37 9.500
15784.4 0 125.9 19.37 1.294 2.072
4.797 125.9 19.37 9.500
15784.3 0 125.9 19.37 1.294 2.072
4.811 125.9 19.37 9.500
15784.3 0 125.9 19.37 1.294 2.073
4.825 125.9 19.37 9.500
15784.3 0 125.9 19.37 1.294 2.073
4.840 125.9 19.37 9.500
15784.2 0 125.9 19.37 1.294 2.074
4.867 125.9 19.37 9.500
15784.2 0 125.9 19.37 1.294 2.075
4.885 125.9 19.37 9.500
15784.1 0 125.9 19.37 1.294 2.075
4.894 125.9 19.37 9.500
15784.1 0 125.9 19.37 1.294 2.076
4.909 125.9 19.37 9.500
15784.0 0 125.9 19.37 1.294 2.077
4.944 125.9 19.37 9.500
15783.9 0 125.9 19.37 1.294 2.077
4.960 125.9 19.37 9.500
15783.9 0 125.9 19.37 1.294 2.078
4.975 125.9 19.37 9.500
15783.8 1 125.9 19.37 1.293 2.077
4.981 125.9 19.37 9.500
15783.7 0 125.9 19.37 1.293 2.078
4.994 125.9 19.37 9.500
15783.5 1 125.9 19.37 1.293 2.078
4.999 125.9 19.37 9.500
15783.5 0 125.9 19.37 1.293 2.079
5.008 125.9 19.37 9.500
15783.5 0 125.9 19.37 1.293 2.079
5.021 125.9 19.37 9.500
15783.5 0 125.9 19.37 1.293 2.080
5.037 125.9 19.37 9.500
15783.4 0 125.9 19.37 1.293 2.081
5.068 125.9 19.37 9.500
15783.4 0 125.9 19.37 1.293 2.081
5.081 125.9 19.37 9.500
15783.4 0 125.9 19.37 1.293 2.082
5.094 125.9 19.37 9.500
15783.4 0 125.9 19.37 1.293 2.082
5.109 125.9 19.37 9.500
15783.2 1 125.9 19.37 1.293 2.082
5.115 125.9 19.37 9.500
15783.2 0 125.9 19.37 1.293 2.083
5.127 125.9 19.37 9.500
15783.2 0 125.9 19.37 1.293 2.084
5.151 125.9 19.37 9.500
15783.0 1 125.9 19.37 1.293 2.084
5.157 125.9 19.37 9.500
15783.0 0 125.9 19.37 1.293 2.085
5.167 125.9 19.37 9.500
15782.8 1 125.9 19.37 1.293 2.085
5.190 125.9 19.37 9.500
15782.8 0 125.9 19.37 1.293 2.086
5.201 125.9 19.37 9.500
15782.7 1 125.9 19.37 1.293 2.085
5.207 125.9 19.37 9.500
15782.5 1 125.9 19.37 1.293 2.085
5.213 125.9 19.37 9.500
15782.4 1 125.9 19.37 1.293 2.085
5.219 125.9 19.37 9.500
15782.3 1 125.9 19.37 1.293 2.085
5.225 125.9 19.37 9.500
15782.1 1 125.9 19.37 1.293 2.085
5.231 125.9 19.37 9.500
15782.0 1 125.9 19.37 1.293 2.085
5.236 125.9 19.37 9.500
15781.8 1 125.9 19.37 1.293 2.085
5.242 125.9 19.37 9.500
15781.7 1 125.9 19.37 1.292 2.085
5.247 125.9 19.37 9.500
15781.5 1 125.9 19.37 1.292 2.085
5.253 125.9 19.37 9.500
15781.4 1 125.9 19.37 1.292 2.084
5.258 125.9 19.37 9.500
15781.2 1 125.9 19.37 1.292 2.084
5.264 125.9 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
2.13E-05 | -0.01 0.00 -1.00 0.04 0.00 -0.01 0.00
4.43E-04 | 0.02 0.00 -0.04 -1.00 0.04 0.00 0.00
2.00E-02 | -0.99 -0.02 0.01 -0.02 0.00 -0.13 -0.01
1.68E-02 | -0.13 0.00 -0.01 -0.01 0.00 0.99 0.04
2.27E+00 | 0.00 0.29 0.00 0.00 -0.01 0.04 -0.96
5.10E+00 | 0.02 -0.96 0.00 0.00 0.00 0.02 -0.29
1.28E+03 | 0.00 0.00 0.00 0.04 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 125.923 +/- 0.159446 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.20584 1
3 3 1 gaussian norm 1.29215 +/- 0.764752E-02 1
4 4 2 powerlaw PhoIndex 2.08433 +/- 1.36142 1
5 5 2 powerlaw norm 5.26371 +/- 35.7188 1
6 6 3 gaussian LineE keV 125.937 +/- 0.155364 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.65968 2
8 3 3 gaussian norm 1.29215 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 5.26371 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 15781.23 using 198 PHA bins.
Reduced chi-squared = 83.05913 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 ( 80.108) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 80.108) > 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 1.192 photons ( 2.4743E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.175 photons ( 2.4367E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:57 12-Jun-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 3.273 +/- 7.3188E-03
Net count rate (cts/s) for file 2 3.273 +/- 7.3188E-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 = 258224.4 using 168 PHA bins.
Reduced chi-squared = 1613.902 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13373.75 using 168 PHA bins.
Reduced chi-squared = 83.58593 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1021.00 -3 87.87 11.60 0.2047 0.8574
0.5452 88.79 11.19 0.8551
517.299 -4 84.31 11.26 0.2006 0.8452
0.5000 86.73 11.24 0.8461
505.225 -5 84.59 10.23 0.1958 0.8420
0.4956 86.71 10.91 0.8425
503.533 -6 84.44 10.70 0.2010 0.8477
0.5048 86.71 11.15 0.8479
503.047 -7 84.49 10.49 0.1989 0.8450
0.5007 86.71 11.04 0.8455
502.985 -8 84.47 10.57 0.2000 0.8464
0.5028 86.71 11.09 0.8467
502.971 -9 84.48 10.54 0.1995 0.8458
0.5019 86.71 11.07 0.8462
502.970 -10 84.47 10.55 0.1997 0.8461
0.5023 86.71 11.08 0.8464
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.18E-07 | 0.00 0.00 -0.22 0.58 -0.55 0.00 0.00 0.56
9.41E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.77E-06 | 0.00 0.05 -0.97 -0.10 0.16 0.00 0.04 -0.11
5.42E-04 | 0.02 0.23 -0.03 -0.39 -0.79 0.02 0.17 -0.37
1.05E-03 | 0.00 -0.74 -0.01 -0.03 -0.04 0.01 0.67 -0.02
3.02E-03 | 0.01 -0.63 -0.08 -0.12 -0.22 0.01 -0.72 -0.12
6.71E-02 | -0.39 0.00 0.00 -0.01 -0.03 -0.92 0.00 -0.01
5.63E-02 | 0.92 0.00 0.00 0.01 0.01 -0.39 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 84.4712 +/- 0.240617 1
2 2 1 gaussian Sigma keV 10.5499 +/- 0.425358E-01 1
3 3 1 gaussian norm 0.199714 +/- 0.514780E-02 1
4 4 2 powerlaw PhoIndex 0.846055 +/- 0.119672E-01 1
5 5 2 powerlaw norm 0.502279 +/- 0.232696E-01 1
6 6 3 gaussian LineE keV 86.7122 +/- 0.255667 2
7 7 3 gaussian Sigma keV 11.0811 +/- 0.452176E-01 2
8 3 3 gaussian norm 0.199714 = par 3 2
9 8 4 powerlaw PhoIndex 0.846424 +/- 0.115011E-01 2
10 5 4 powerlaw norm 0.502279 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 502.9699 using 168 PHA bins.
Reduced chi-squared = 3.143562 for 160 degrees of freedom
Null hypothesis probability = 4.295E-37
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 ( 3.012) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.012) > 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 1.291 photons ( 1.5858E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.289 photons ( 1.5908E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
41.27454
=====best line=====
84.4722 0.240739
=====best sigma=====
10.5471 0.425770E-01
=====norm=====
0.199674 0.515310E-02
=====phoindx=====
0.846008 0.119753E-01
=====pow_norm=====
0.502210 0.232939E-01
=====best line=====
86.7121 0.255721
=====best sigma=====
11.0789 0.452541E-01
=====norm=====
0.199674 par
=====phoindx=====
0.846383 0.115088E-01
=====pow_norm=====
0.502210 par
=====redu_chi=====
3.143560
=====area_flux=====
1.291
=====area_flux_f=====
1.289
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 13 1 640 2000 1351.5552 0 0.199674 0.515310E-02 10.5471 0.425770E-01 0.846008 0.119753E-01 0.502210 0.232939E-01 1.291 640 2000 1387.3936 0 0.199674 0.515310E-02 11.0789 0.452541E-01 0.846383 0.115088E-01 0.502210 0.232939E-01 1.289 3.143560 1
=====redu_chi=====
460.6965
=====best line=====
125.923 0.159446
=====best sigma=====
19.3655 2.20584
=====norm=====
1.29215 0.764752E-02
=====phoindx=====
2.08433 1.36142
=====pow_norm=====
5.26371 35.7188
=====best line=====
125.937 0.155364
=====best sigma=====
19.3655 1.65968
=====norm=====
1.29215 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
5.26371 par
=====redu_chi=====
83.05913
=====area_flux=====
1.192
=====area_flux_f=====
1.175
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 13 1 1600 3200 2014.768 0 1.29215 0.764752E-02 309.848 35.29344 2.08433 1.36142 5.26371 35.7188 1.192 1600 3200 2014.992 0 1.29215 0.764752E-02 309.848 26.55488 9.50000 -1.00000 5.26371 35.7188 1.175 83.05913 1
=====redu_chi=====
83.58593
=====best line=====
84.4712 0.240617
=====best sigma=====
10.5499 0.425358E-01
=====norm=====
0.199714 0.514780E-02
=====phoindx=====
0.846055 0.119672E-01
=====pow_norm=====
0.502279 0.232696E-01
=====best line=====
86.7122 0.255667
=====best sigma=====
11.0811 0.452176E-01
=====norm=====
0.199714 par
=====phoindx=====
0.846424 0.115011E-01
=====pow_norm=====
0.502279 par
=====redu_chi=====
3.143562
=====area_flux=====
1.291
=====area_flux_f=====
1.289
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 13 1 640 2000 1351.5392 0 0.199714 0.514780E-02 10.5499 0.425358E-01 0.846055 0.119672E-01 0.502279 0.232696E-01 1.291 640 2000 1387.3952 0 0.199714 0.514780E-02 11.0811 0.452176E-01 0.846424 0.115011E-01 0.502279 0.232696E-01 1.289 3.143562 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:57 12-Jun-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 2.154 +/- 5.9366E-03
Net count rate (cts/s) for file 2 2.154 +/- 5.9366E-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 = 620527.6 using 168 PHA bins.
Reduced chi-squared = 3878.297 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 9206.688 using 168 PHA bins.
Reduced chi-squared = 57.54180 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1790.40 -3 82.99 16.40 0.1823 0.9698
0.4568 83.30 15.99 0.9647
619.844 -3 76.42 9.110 0.1257 0.8461
0.3165 77.87 9.183 0.8507
539.818 -1 76.86 10.04 0.1367 0.8465
0.3226 78.67 13.06 0.8477
428.386 -2 77.10 9.947 0.1343 0.8598
0.3415 78.74 9.810 0.8601
422.875 0 77.09 9.920 0.1353 0.8597
0.3418 78.82 10.57 0.8603
419.383 -1 77.06 10.24 0.1387 0.8613
0.3431 78.81 10.45 0.8623
411.153 -2 77.14 10.05 0.1402 0.8728
0.3587 78.88 10.52 0.8735
407.091 -3 77.29 10.19 0.1418 0.9036
0.4043 79.06 10.57 0.9035
398.623 -4 77.37 10.16 0.1424 0.9145
0.4270 79.13 10.58 0.9151
397.982 -5 77.36 10.18 0.1425 0.9145
0.4284 79.13 10.58 0.9156
397.982 -4 77.37 10.17 0.1425 0.9145
0.4285 79.13 10.58 0.9156
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.34E-07 | 0.00 0.00 -0.33 0.54 -0.59 0.00 0.00 0.51
1.50E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.30E-06 | 0.00 0.03 -0.94 -0.17 0.22 0.00 0.04 -0.18
6.30E-04 | 0.02 0.05 -0.01 -0.45 -0.78 0.02 0.09 -0.43
1.48E-03 | -0.01 -0.54 0.01 0.02 0.03 0.01 0.84 0.02
3.40E-03 | 0.02 0.84 0.04 0.05 0.06 0.02 0.54 0.05
6.91E-02 | -0.86 0.01 0.00 0.00 -0.01 0.50 0.00 0.00
8.31E-02 | 0.50 -0.02 0.00 0.01 0.02 0.86 -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 77.3674 +/- 0.269356 1
2 2 1 gaussian Sigma keV 10.1716 +/- 0.535039E-01 1
3 3 1 gaussian norm 0.142474 +/- 0.357382E-02 1
4 4 2 powerlaw PhoIndex 0.914454 +/- 0.123539E-01 1
5 5 2 powerlaw norm 0.428456 +/- 0.211718E-01 1
6 6 3 gaussian LineE keV 79.1286 +/- 0.281909 2
7 7 3 gaussian Sigma keV 10.5828 +/- 0.453852E-01 2
8 3 3 gaussian norm 0.142474 = par 3 2
9 8 4 powerlaw PhoIndex 0.915622 +/- 0.118671E-01 2
10 5 4 powerlaw norm 0.428456 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 397.9819 using 168 PHA bins.
Reduced chi-squared = 2.487387 for 160 degrees of freedom
Null hypothesis probability = 2.837E-22
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 ( 2.383) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.383) > 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 0.8377 photons ( 1.0090E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8343 photons ( 1.0088E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:57 12-Jun-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 5.379 +/- 9.3824E-03
Net count rate (cts/s) for file 2 5.379 +/- 9.3824E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.226 +/- 1.1103E-02( 60.0% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.226 +/- 1.1103E-02( 60.0% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 7567209. using 198 PHA bins.
Reduced chi-squared = 39827.41 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 61910.05 using 198 PHA bins.
Reduced chi-squared = 325.8424 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
30711.2 -3 122.3 18.20 0.3470 2.800
0.1757 113.8 18.29 2.743
12511.4 -2 110.3 19.22 1.106 7.197
8.7488E-02 113.4 19.16 7.921
11660.9 -1 112.5 19.30 1.096 9.432
4.3671E-02 113.6 19.30 9.402
11343.7 -1 113.6 19.34 1.096 9.480
1.2474E-02 113.7 19.34 9.466
11122.4 -1 114.3 19.36 1.092 9.498
1.3756E-03 113.8 19.36 9.486
10947.7 -1 114.7 19.36 1.086 9.500
6.8084E-04 113.9 19.36 9.499
10836.7 -1 115.0 19.37 1.081 9.500
2.9585E-04 114.1 19.36 9.500
10755.3 -1 115.2 19.37 1.078 9.500
9.2636E-05 114.2 19.37 9.500
10662.2 -1 115.3 19.37 1.073 9.500
4.1218E-05 114.3 19.37 9.500
10614.0 -1 115.5 19.37 1.071 9.500
1.4717E-05 114.3 19.37 9.500
10562.8 -1 115.5 19.37 1.068 9.500
1.4762E-06 114.4 19.37 9.500
10072.3 0 116.2 19.37 1.034 9.500
7.2658E-07 114.9 19.37 9.500
9484.37 0 117.8 19.37 0.9820 9.500
2.6392E-08 115.9 19.37 9.500
9414.71 0 118.2 19.37 0.9734 9.500
8.4838E-09 116.1 19.37 9.500
9369.89 0 118.5 19.37 0.9670 9.500
3.9637E-09 116.3 19.37 9.500
9340.53 0 118.7 19.37 0.9620 9.500
1.6991E-09 116.4 19.37 9.500
9321.93 0 118.8 19.37 0.9584 9.500
5.5857E-10 116.5 19.37 9.500
9309.85 0 119.0 19.37 0.9557 9.500
2.7316E-10 116.6 19.37 9.500
9300.91 0 119.1 19.37 0.9535 9.500
1.2969E-10 116.7 19.37 9.500
9295.51 0 119.1 19.37 0.9520 9.500
5.7969E-11 116.7 19.37 9.500
9291.41 0 119.2 19.37 0.9508 9.500
2.2040E-11 116.8 19.37 9.500
9288.18 0 119.2 19.37 0.9500 9.500
3.9703E-12 116.8 19.37 9.500
9285.52 0 119.3 19.37 0.9490 9.500
1.7230E-12 116.8 19.37 9.500
9284.16 0 119.3 19.37 0.9484 9.500
5.9575E-13 116.8 19.37 9.500
9283.30 0 119.3 19.37 0.9482 9.500
3.1293E-14 116.8 19.37 9.500
Fit parameter 5 has pegged
9232.24 0 119.3 19.37 0.9432 9.500
0.000 116.6 19.03 9.500
Fit parameter 5 has pegged
9230.01 0 119.2 19.37 0.9411 9.500
0.000 116.7 19.02 9.500
Fit parameter 5 has pegged
9229.75 0 119.2 19.37 0.9401 9.500
0.000 116.7 19.01 9.500
Fit parameter 5 has pegged
9229.33 0 119.2 19.37 0.9395 9.500
0.000 116.7 18.99 9.500
Fit parameter 5 has pegged
9228.64 0 119.2 19.37 0.9390 9.500
0.000 116.8 18.99 9.500
Fit parameter 5 has pegged
9227.41 0 119.2 19.37 0.9385 9.500
0.000 116.8 18.98 9.500
Fit parameter 5 has pegged
9225.91 0 119.2 19.37 0.9380 9.500
0.000 116.8 18.97 9.500
Fit parameter 5 has pegged
9224.53 0 119.2 19.37 0.9375 9.500
0.000 116.8 18.97 9.500
Fit parameter 5 has pegged
9224.11 0 119.2 19.37 0.9374 9.500
0.000 116.8 18.97 9.500
Fit parameter 5 has pegged
9223.14 0 119.2 19.37 0.9371 9.500
0.000 116.8 18.96 9.500
Fit parameter 5 has pegged
9218.49 0 119.3 19.37 0.9361 9.500
0.000 116.8 18.96 9.500
Fit parameter 5 has pegged
9214.28 0 119.3 19.37 0.9352 9.500
0.000 116.8 18.96 9.500
Fit parameter 5 has pegged
9210.42 0 119.4 19.37 0.9344 9.500
0.000 116.8 18.96 9.500
Fit parameter 5 has pegged
9206.93 0 119.4 19.37 0.9336 9.500
0.000 116.9 18.96 9.500
Fit parameter 5 has pegged
9203.80 0 119.4 19.37 0.9328 9.500
0.000 116.9 18.95 9.500
Fit parameter 5 has pegged
9200.96 0 119.5 19.37 0.9321 9.500
0.000 116.9 18.95 9.500
Fit parameter 5 has pegged
9198.33 0 119.5 19.37 0.9314 9.500
0.000 116.9 18.95 9.500
Fit parameter 5 has pegged
9195.91 0 119.6 19.37 0.9307 9.500
0.000 116.9 18.95 9.500
Fit parameter 5 has pegged
9193.73 0 119.6 19.37 0.9301 9.500
0.000 116.9 18.95 9.500
Fit parameter 5 has pegged
9191.81 0 119.6 19.37 0.9295 9.500
0.000 116.9 18.95 9.500
Fit parameter 5 has pegged
9190.00 0 119.7 19.37 0.9290 9.500
0.000 116.9 18.94 9.500
Fit parameter 5 has pegged
9188.27 0 119.7 19.37 0.9285 9.500
0.000 116.9 18.94 9.500
Fit parameter 5 has pegged
9186.84 0 119.7 19.37 0.9280 9.500
0.000 116.9 18.94 9.500
Fit parameter 5 has pegged
9185.45 0 119.8 19.37 0.9275 9.500
0.000 116.9 18.94 9.500
Fit parameter 5 has pegged
9184.10 0 119.8 19.37 0.9270 9.500
0.000 116.9 18.93 9.500
Fit parameter 5 has pegged
9182.96 0 119.8 19.37 0.9266 9.500
0.000 116.9 18.93 9.500
Fit parameter 5 has pegged
9181.88 0 119.8 19.37 0.9262 9.500
0.000 116.9 18.93 9.500
Fit parameter 5 has pegged
9180.88 0 119.8 19.37 0.9258 9.500
0.000 116.9 18.92 9.500
Fit parameter 5 has pegged
9179.95 0 119.9 19.37 0.9254 9.500
0.000 116.9 18.92 9.500
Fit parameter 5 has pegged
9179.05 0 119.9 19.37 0.9251 9.500
0.000 117.0 18.92 9.500
Fit parameter 5 has pegged
9178.29 0 119.9 19.37 0.9247 9.500
0.000 117.0 18.92 9.500
Fit parameter 5 has pegged
9177.53 0 119.9 19.37 0.9244 9.500
0.000 117.0 18.91 9.500
Fit parameter 5 has pegged
9176.83 0 119.9 19.37 0.9241 9.500
0.000 117.0 18.91 9.500
Fit parameter 5 has pegged
9176.22 0 120.0 19.37 0.9238 9.500
0.000 117.0 18.91 9.500
Fit parameter 5 has pegged
9175.62 0 120.0 19.37 0.9235 9.500
0.000 117.0 18.91 9.500
Fit parameter 5 has pegged
9175.09 0 120.0 19.37 0.9232 9.500
0.000 117.0 18.90 9.500
Fit parameter 5 has pegged
9174.57 0 120.0 19.37 0.9230 9.500
0.000 117.0 18.90 9.500
Fit parameter 5 has pegged
9174.09 0 120.0 19.37 0.9227 9.500
0.000 117.0 18.90 9.500
Fit parameter 5 has pegged
9173.63 0 120.0 19.37 0.9225 9.500
0.000 117.0 18.89 9.500
Fit parameter 5 has pegged
9173.21 0 120.0 19.37 0.9222 9.500
0.000 117.0 18.89 9.500
Fit parameter 5 has pegged
9172.85 0 120.0 19.37 0.9220 9.500
0.000 117.0 18.89 9.500
Fit parameter 5 has pegged
9172.47 0 120.1 19.37 0.9218 9.500
0.000 117.0 18.89 9.500
Fit parameter 5 has pegged
9172.06 0 120.1 19.37 0.9216 9.500
0.000 117.0 18.88 9.500
Fit parameter 5 has pegged
9171.76 0 120.1 19.37 0.9214 9.500
0.000 117.0 18.88 9.500
Fit parameter 5 has pegged
9171.43 0 120.1 19.37 0.9212 9.500
0.000 117.1 18.88 9.500
Fit parameter 5 has pegged
9171.18 0 120.1 19.37 0.9210 9.500
0.000 117.1 18.88 9.500
Fit parameter 5 has pegged
9170.92 0 120.1 19.37 0.9208 9.500
0.000 117.1 18.87 9.500
Fit parameter 5 has pegged
9170.63 0 120.1 19.37 0.9207 9.500
0.000 117.1 18.87 9.500
Fit parameter 5 has pegged
9170.41 0 120.1 19.37 0.9205 9.500
0.000 117.1 18.87 9.500
Fit parameter 5 has pegged
9170.15 0 120.1 19.37 0.9203 9.500
0.000 117.1 18.87 9.500
Fit parameter 5 has pegged
9169.93 0 120.1 19.37 0.9202 9.500
0.000 117.1 18.86 9.500
Fit parameter 5 has pegged
9169.74 0 120.1 19.37 0.9200 9.500
0.000 117.1 18.86 9.500
Fit parameter 5 has pegged
9169.52 0 120.1 19.37 0.9199 9.500
0.000 117.1 18.86 9.500
Fit parameter 5 has pegged
9169.33 0 120.1 19.37 0.9197 9.500
0.000 117.1 18.86 9.500
Fit parameter 5 has pegged
9169.16 0 120.2 19.37 0.9196 9.500
0.000 117.1 18.86 9.500
Fit parameter 5 has pegged
9169.00 0 120.2 19.37 0.9195 9.500
0.000 117.1 18.85 9.500
Fit parameter 5 has pegged
9168.87 0 120.2 19.37 0.9193 9.500
0.000 117.1 18.85 9.500
Fit parameter 5 has pegged
9168.71 0 120.2 19.37 0.9192 9.500
0.000 117.1 18.85 9.500
Fit parameter 5 has pegged
9168.57 0 120.2 19.37 0.9191 9.500
0.000 117.1 18.85 9.500
Fit parameter 5 has pegged
9168.42 0 120.2 19.37 0.9190 9.500
0.000 117.1 18.85 9.500
Fit parameter 5 has pegged
9168.27 0 120.2 19.37 0.9189 9.500
0.000 117.1 18.84 9.500
Fit parameter 5 has pegged
9168.20 0 120.2 19.37 0.9188 9.500
0.000 117.1 18.84 9.500
Fit parameter 5 has pegged
9168.07 0 120.2 19.37 0.9187 9.500
0.000 117.2 18.84 9.500
Fit parameter 5 has pegged
9168.00 0 120.2 19.37 0.9186 9.500
0.000 117.2 18.84 9.500
Fit parameter 5 has pegged
9167.86 0 120.2 19.37 0.9185 9.500
0.000 117.2 18.84 9.500
Fit parameter 5 has pegged
9167.77 0 120.2 19.37 0.9184 9.500
0.000 117.2 18.83 9.500
Fit parameter 5 has pegged
9167.71 0 120.2 19.37 0.9183 9.500
0.000 117.2 18.83 9.500
Fit parameter 5 has pegged
9167.61 0 120.2 19.37 0.9182 9.500
0.000 117.2 18.83 9.500
Fit parameter 5 has pegged
9167.50 0 120.2 19.37 0.9181 9.500
0.000 117.2 18.83 9.500
Fit parameter 5 has pegged
9167.43 0 120.2 19.37 0.9180 9.500
0.000 117.2 18.83 9.500
Fit parameter 5 has pegged
9167.35 0 120.2 19.37 0.9180 9.500
0.000 117.2 18.83 9.500
Fit parameter 5 has pegged
9167.28 0 120.2 19.37 0.9179 9.500
0.000 117.2 18.83 9.500
Fit parameter 5 has pegged
9167.15 0 120.2 19.37 0.9178 9.500
0.000 117.2 18.82 9.500
Fit parameter 5 has pegged
9167.12 0 120.2 19.37 0.9177 9.500
0.000 117.2 18.82 9.500
Fit parameter 5 has pegged
9167.09 0 120.2 19.37 0.9177 9.500
0.000 117.2 18.82 9.500
Fit parameter 5 has pegged
9166.96 0 120.2 19.37 0.9176 9.500
0.000 117.2 18.82 9.500
Fit parameter 5 has pegged
9166.94 0 120.2 19.37 0.9175 9.500
0.000 117.2 18.82 9.500
Fit parameter 5 has pegged
9166.89 0 120.2 19.37 0.9175 9.500
0.000 117.2 18.82 9.500
Fit parameter 5 has pegged
9166.84 0 120.2 19.37 0.9174 9.500
0.000 117.2 18.82 9.500
Fit parameter 5 has pegged
9166.79 0 120.2 19.37 0.9173 9.500
0.000 117.2 18.82 9.500
Fit parameter 5 has pegged
9166.74 0 120.2 19.37 0.9173 9.500
0.000 117.2 18.81 9.500
Fit parameter 5 has pegged
9166.69 0 120.2 19.37 0.9172 9.500
0.000 117.2 18.81 9.500
Fit parameter 5 has pegged
9166.68 0 120.2 19.37 0.9172 9.500
0.000 117.2 18.81 9.500
9166.57 0 120.2 19.37 0.9171 9.500
0.000 117.2 18.82 9.500
Fit parameter 5 has pegged
9166.49 0 120.2 19.37 0.9171 9.500
0.000 117.2 18.81 9.500
Fit parameter 5 has pegged
9166.48 0 120.2 19.37 0.9170 9.500
0.000 117.2 18.81 9.500
Fit parameter 5 has pegged
9166.42 0 120.2 19.37 0.9170 9.500
0.000 117.2 18.81 9.500
Fit parameter 5 has pegged
9166.42 0 120.2 19.37 0.9169 9.500
0.000 117.2 18.81 9.500
9166.32 5 120.3 19.37 0.9169 9.500
0.000 117.3 18.81 9.500
Fit parameter 5 has pegged
9166.32 5 120.3 19.37 0.9169 9.500
0.000 117.3 18.81 9.500
9166.32 5 120.3 19.37 0.9169 9.500
0.000 117.3 18.81 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.52E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.90E-02 | 0.17 0.00 0.01 -0.95 -0.28
2.58E-02 | -0.98 -0.06 0.01 -0.15 -0.09
3.62E+00 | -0.06 1.00 0.00 -0.02 0.06
2.34E-01 | -0.04 -0.06 0.00 -0.29 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 120.253 +/- 0.195292 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.89526 1
3 3 1 gaussian norm 0.916931 +/- 0.511198E-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 117.250 +/- 0.197669 2
7 7 3 gaussian Sigma keV 18.8136 +/- 0.476286 2
8 3 3 gaussian norm 0.916931 = 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 = 9166.315 using 198 PHA bins.
Reduced chi-squared = 48.24377 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 ( 46.530) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 46.530) > 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 0.7813 photons ( 1.5710E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7522 photons ( 1.4854E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:57 12-Jun-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 2.154 +/- 5.9366E-03
Net count rate (cts/s) for file 2 2.154 +/- 5.9366E-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 = 706654.1 using 168 PHA bins.
Reduced chi-squared = 4416.588 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15205.61 using 168 PHA bins.
Reduced chi-squared = 95.03503 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2579.46 -3 85.73 14.15 0.1319 0.9730
0.4799 85.88 13.26 0.9654
877.396 -4 74.17 15.54 0.1589 0.8928
0.3762 76.35 14.07 0.8962
640.013 -2 79.88 8.208 0.1054 0.9000
0.4167 80.26 9.350 0.8981
457.788 -1 77.72 10.77 0.1295 0.9016
0.4128 79.25 10.93 0.9025
399.093 -2 77.34 10.02 0.1406 0.9054
0.4133 79.06 10.41 0.9065
398.380 -3 77.33 10.30 0.1426 0.9122
0.4237 79.11 10.61 0.9131
398.009 -4 77.38 10.15 0.1423 0.9145
0.4284 79.13 10.57 0.9156
397.982 -5 77.36 10.19 0.1425 0.9145
0.4284 79.13 10.59 0.9156
397.982 -1 77.37 10.17 0.1425 0.9145
0.4284 79.13 10.58 0.9156
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.34E-07 | 0.00 0.00 -0.33 0.54 -0.59 0.00 0.00 0.51
1.50E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.30E-06 | 0.00 0.03 -0.94 -0.17 0.22 0.00 0.04 -0.18
6.30E-04 | 0.02 0.05 -0.01 -0.45 -0.78 0.02 0.09 -0.43
1.47E-03 | -0.01 -0.55 0.01 0.02 0.03 0.01 0.83 0.02
3.36E-03 | 0.02 0.83 0.04 0.05 0.06 0.02 0.55 0.05
6.92E-02 | -0.86 0.01 0.00 0.00 -0.01 0.51 0.00 0.00
8.31E-02 | 0.50 -0.02 0.00 0.01 0.02 0.86 -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 77.3676 +/- 0.269511 1
2 2 1 gaussian Sigma keV 10.1727 +/- 0.530255E-01 1
3 3 1 gaussian norm 0.142497 +/- 0.357507E-02 1
4 4 2 powerlaw PhoIndex 0.914455 +/- 0.123546E-01 1
5 5 2 powerlaw norm 0.428443 +/- 0.211735E-01 1
6 6 3 gaussian LineE keV 79.1283 +/- 0.281920 2
7 7 3 gaussian Sigma keV 10.5839 +/- 0.453966E-01 2
8 3 3 gaussian norm 0.142497 = par 3 2
9 8 4 powerlaw PhoIndex 0.915622 +/- 0.118678E-01 2
10 5 4 powerlaw norm 0.428443 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 397.9817 using 168 PHA bins.
Reduced chi-squared = 2.487385 for 160 degrees of freedom
Null hypothesis probability = 2.837E-22
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 ( 2.383) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.383) > 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 0.8377 photons ( 1.0090E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8343 photons ( 1.0088E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
57.54180
=====best line=====
77.3674 0.269356
=====best sigma=====
10.1716 0.535039E-01
=====norm=====
0.142474 0.357382E-02
=====phoindx=====
0.914454 0.123539E-01
=====pow_norm=====
0.428456 0.211718E-01
=====best line=====
79.1286 0.281909
=====best sigma=====
10.5828 0.453852E-01
=====norm=====
0.142474 par
=====phoindx=====
0.915622 0.118671E-01
=====pow_norm=====
0.428456 par
=====redu_chi=====
2.487387
=====area_flux=====
0.8377
=====area_flux_f=====
0.8343
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 14 1 640 2000 1237.8784 0 0.142474 0.357382E-02 10.1716 0.535039E-01 0.914454 0.123539E-01 0.428456 0.211718E-01 0.8377 640 2000 1266.0576 0 0.142474 0.357382E-02 10.5828 0.453852E-01 0.915622 0.118671E-01 0.428456 0.211718E-01 0.8343 2.487387 0
=====redu_chi=====
325.8424
=====best line=====
120.253 0.195292
=====best sigma=====
19.3655 1.89526
=====norm=====
0.916931 0.511198E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
117.250 0.197669
=====best sigma=====
18.8136 0.476286
=====norm=====
0.916931 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
48.24377
=====area_flux=====
0.7813
=====area_flux_f=====
0.7522
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 14 1 1600 3200 1924.048 0 0.916931 0.511198E-02 309.848 30.32416 9.50000 -1.00000 0.00000 -1.00000 0.7813 1600 3200 1876 0 0.916931 0.511198E-02 301.0176 7.620576 9.50000 -1.00000 0.00000 -1.00000 0.7522 48.24377 1
=====redu_chi=====
95.03503
=====best line=====
77.3676 0.269511
=====best sigma=====
10.1727 0.530255E-01
=====norm=====
0.142497 0.357507E-02
=====phoindx=====
0.914455 0.123546E-01
=====pow_norm=====
0.428443 0.211735E-01
=====best line=====
79.1283 0.281920
=====best sigma=====
10.5839 0.453966E-01
=====norm=====
0.142497 par
=====phoindx=====
0.915622 0.118678E-01
=====pow_norm=====
0.428443 par
=====redu_chi=====
2.487385
=====area_flux=====
0.8377
=====area_flux_f=====
0.8343
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 14 1 640 2000 1237.8816 0 0.142497 0.357507E-02 10.1727 0.530255E-01 0.914455 0.123546E-01 0.428443 0.211735E-01 0.8377 640 2000 1266.0528 0 0.142497 0.357507E-02 10.5839 0.453966E-01 0.915622 0.118678E-01 0.428443 0.211735E-01 0.8343 2.487385 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 20:20:57 12-Jun-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 2.117 +/- 5.8859E-03
Net count rate (cts/s) for file 2 2.117 +/- 5.8859E-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 = 642974.4 using 168 PHA bins.
Reduced chi-squared = 4018.590 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7753.861 using 168 PHA bins.
Reduced chi-squared = 48.46163 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1336.99 -3 83.91 14.58 0.1237 0.8709
0.3577 84.60 13.74 0.8685
799.415 -4 77.72 8.648 8.4149E-02 0.8466
0.3332 80.19 9.055 0.8477
648.484 -1 79.88 9.920 0.1153 0.8535
0.3297 81.81 12.85 0.8546
484.253 -2 79.80 9.162 0.1162 0.8731
0.3549 81.18 9.627 0.8728
474.547 0 79.80 9.334 0.1181 0.8729
0.3553 81.44 9.851 0.8732
471.453 0 79.80 9.429 0.1195 0.8731
0.3554 81.56 9.952 0.8737
469.895 0 79.79 9.490 0.1206 0.8733
0.3555 81.61 10.02 0.8741
465.778 -1 79.76 9.673 0.1236 0.8760
0.3579 81.63 10.27 0.8769
448.645 -2 79.83 9.750 0.1258 0.8940
0.3834 81.68 10.26 0.8943
436.347 -2 79.90 9.775 0.1267 0.9077
0.4064 81.76 10.31 0.9081
436.175 -3 80.09 9.925 0.1301 0.9488
0.4746 81.97 10.46 0.9481
416.124 -4 80.17 9.945 0.1311 0.9641
0.5128 82.04 10.47 0.9643
414.357 -5 80.18 9.946 0.1312 0.9641
0.5157 82.05 10.47 0.9650
414.355 -6 80.18 9.946 0.1312 0.9640
0.5157 82.05 10.47 0.9650
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.43E-07 | 0.00 0.00 -0.37 0.56 -0.51 0.00 0.00 0.54
1.53E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.87E-06 | 0.00 0.01 -0.93 -0.21 0.22 0.00 0.03 -0.22
8.52E-04 | 0.03 0.01 -0.02 -0.39 -0.81 0.03 0.21 -0.37
1.93E-03 | -0.01 -0.07 0.03 0.09 0.17 0.01 0.97 0.09
6.88E-02 | 0.83 0.52 0.00 0.01 0.03 -0.19 0.04 0.01
8.80E-02 | -0.45 0.44 0.00 -0.01 -0.02 -0.77 0.04 -0.01
7.83E-02 | -0.32 0.73 0.01 0.01 0.02 0.60 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 80.1775 +/- 0.271506 1
2 2 1 gaussian Sigma keV 9.94597 +/- 0.277966 1
3 3 1 gaussian norm 0.131196 +/- 0.347525E-02 1
4 4 2 powerlaw PhoIndex 0.963989 +/- 0.131757E-01 1
5 5 2 powerlaw norm 0.515688 +/- 0.267624E-01 1
6 6 3 gaussian LineE keV 82.0472 +/- 0.289403 2
7 7 3 gaussian Sigma keV 10.4705 +/- 0.467653E-01 2
8 3 3 gaussian norm 0.131196 = par 3 2
9 8 4 powerlaw PhoIndex 0.964953 +/- 0.126597E-01 2
10 5 4 powerlaw norm 0.515688 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 414.3554 using 168 PHA bins.
Reduced chi-squared = 2.589721 for 160 degrees of freedom
Null hypothesis probability = 1.861E-24
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 ( 2.481) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.481) > 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 0.8089 photons ( 9.7571E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8061 photons ( 9.7624E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 20:20:58 12-Jun-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 5.112 +/- 9.1461E-03
Net count rate (cts/s) for file 2 5.112 +/- 9.1461E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 2.995 +/- 1.0876E-02( 58.6% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 2.995 +/- 1.0876E-02( 58.6% total)
using background file... ae802022010_hxdmkgainhist_tmp/ae802022010_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 = 5472604. using 198 PHA bins.
Reduced chi-squared = 28803.18 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 67610.35 using 198 PHA bins.
Reduced chi-squared = 355.8440 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
35270.8 -3 119.2 19.17 0.3685 2.858
0.2656 115.4 19.11 2.814
19865.7 -2 111.3 19.34 1.261 8.427
2.9828E-02 112.3 19.35 6.918
19002.6 -1 112.0 19.36 1.242 9.203
9.9837E-03 112.8 19.36 8.792
18279.6 -1 112.7 19.36 1.227 9.466
4.3201E-03 113.3 19.36 9.331
18012.1 -1 113.2 19.37 1.225 9.493
1.7381E-04 113.6 19.36 9.442
17799.3 -1 113.5 19.37 1.222 9.497
1.1473E-05 113.8 19.37 9.488
17378.2 -1 113.8 19.37 1.212 9.500
5.1234E-06 114.1 19.37 9.496
17107.7 -1 114.1 19.37 1.206 9.500
1.7947E-06 114.4 19.37 9.499
16850.2 -1 114.4 19.37 1.200 9.500
9.8852E-08 114.6 19.37 9.499
16668.9 -1 114.6 19.37 1.196 9.500
4.5224E-08 114.8 19.37 9.500
16523.6 -1 114.8 19.37 1.193 9.500
1.7492E-08 114.9 19.37 9.500
16320.7 -1 114.9 19.37 1.188 9.500
3.8347E-09 115.1 19.37 9.500
15952.9 -1 115.3 19.37 1.178 1.109
1.8932E-10 115.3 19.37 9.500
15042.1 -1 115.7 19.37 1.142 6.633
5.1416E-02 115.6 19.37 9.500
14735.5 -1 116.2 19.37 1.135 9.216
6.6471E-03 115.9 19.37 9.500
13613.9 0 117.1 19.37 1.090 9.455
1.2254E-03 116.7 19.37 9.500
12900.8 0 117.9 19.37 1.061 9.485
2.9759E-04 117.5 19.37 9.500
12433.6 0 118.7 19.37 1.042 9.496
1.2826E-05 118.2 19.37 9.500
12115.7 0 119.4 19.37 1.028 9.499
3.1968E-06 118.7 19.37 9.500
11899.3 0 119.9 19.37 1.017 9.500
7.1654E-07 119.2 19.37 9.500
11754.5 0 120.4 19.37 1.009 9.500
7.8887E-08 119.5 19.37 9.500
11653.5 0 120.7 19.37 1.003 9.500
3.8818E-08 119.7 19.37 9.500
11530.4 0 121.2 19.37 0.9950 9.500
7.3949E-09 120.0 19.37 9.500
11493.7 0 121.4 19.37 0.9922 9.500
1.7547E-09 120.1 19.37 9.500
11466.8 0 121.5 19.37 0.9901 9.500
3.3478E-10 120.2 19.37 9.500
11447.4 0 121.6 19.37 0.9884 9.500
1.5758E-10 120.3 19.37 9.500
11433.5 0 121.7 19.37 0.9873 9.500
6.8151E-11 120.3 19.37 9.500
11421.5 0 121.8 19.37 0.9862 9.500
2.3593E-11 120.3 19.37 9.500
11412.9 0 121.8 19.37 0.9854 9.500
1.1982E-12 120.4 19.37 9.500
11405.4 0 121.9 19.37 0.9846 9.500
4.9563E-13 120.4 19.37 9.500
Fit parameter 5 has pegged
11382.4 0 121.9 19.37 0.9804 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11376.3 0 121.9 19.37 0.9788 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11357.4 0 121.9 19.37 0.9760 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11340.5 0 122.0 19.37 0.9735 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11325.3 0 122.1 19.37 0.9711 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
11311.6 0 122.1 19.37 0.9689 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11299.3 0 122.2 19.37 0.9668 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11288.2 0 122.2 19.37 0.9650 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11278.1 0 122.3 19.37 0.9632 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
11268.9 0 122.4 19.37 0.9616 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11260.6 0 122.4 19.37 0.9600 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11253.0 0 122.5 19.37 0.9586 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11246.2 0 122.5 19.37 0.9573 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11239.9 0 122.6 19.37 0.9561 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11234.2 0 122.6 19.37 0.9549 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
11229.0 0 122.7 19.37 0.9539 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
11224.2 0 122.7 19.37 0.9529 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
11219.8 0 122.7 19.37 0.9519 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
11215.8 0 122.8 19.37 0.9511 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
11212.1 0 122.8 19.37 0.9502 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
11208.7 0 122.9 19.37 0.9495 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
11205.6 0 122.9 19.37 0.9487 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11202.7 0 122.9 19.37 0.9480 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11200.0 0 123.0 19.37 0.9474 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11197.6 0 123.0 19.37 0.9468 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11195.4 0 123.0 19.37 0.9462 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11193.2 0 123.1 19.37 0.9457 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11191.3 0 123.1 19.37 0.9452 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11189.6 0 123.1 19.37 0.9447 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11187.9 0 123.1 19.37 0.9443 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11186.4 0 123.2 19.37 0.9438 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
11185.0 0 123.2 19.37 0.9434 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11183.6 0 123.2 19.37 0.9430 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11182.4 0 123.2 19.37 0.9427 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11181.3 0 123.3 19.37 0.9423 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11180.3 0 123.3 19.37 0.9420 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11179.3 0 123.3 19.37 0.9417 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11178.4 0 123.3 19.37 0.9414 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11177.6 0 123.3 19.37 0.9412 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11176.8 0 123.3 19.37 0.9409 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11176.1 0 123.4 19.37 0.9407 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11175.4 0 123.4 19.37 0.9405 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11174.8 0 123.4 19.37 0.9402 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11174.2 0 123.4 19.37 0.9400 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11173.7 0 123.4 19.37 0.9398 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11173.1 0 123.4 19.37 0.9397 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11172.7 0 123.4 19.37 0.9395 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11172.2 0 123.5 19.37 0.9393 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
11171.8 0 123.5 19.37 0.9391 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11171.4 0 123.5 19.37 0.9390 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11171.1 0 123.5 19.37 0.9388 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11170.7 0 123.5 19.37 0.9387 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11170.4 0 123.5 19.37 0.9386 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11170.1 0 123.5 19.37 0.9384 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11169.8 0 123.5 19.37 0.9383 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11169.5 0 123.5 19.37 0.9382 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11169.3 0 123.5 19.37 0.9381 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11169.0 0 123.5 19.37 0.9380 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11168.8 0 123.6 19.37 0.9379 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11168.6 0 123.6 19.37 0.9378 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11168.4 0 123.6 19.37 0.9377 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11168.2 0 123.6 19.37 0.9376 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11168.0 0 123.6 19.37 0.9376 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11167.9 0 123.6 19.37 0.9375 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11167.7 0 123.6 19.37 0.9374 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11167.6 0 123.6 19.37 0.9373 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11167.5 0 123.6 19.37 0.9373 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11167.3 0 123.6 19.37 0.9372 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11167.2 0 123.6 19.37 0.9371 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11167.1 0 123.6 19.37 0.9371 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11167.0 0 123.6 19.37 0.9370 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.8 0 123.6 19.37 0.9370 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.8 0 123.6 19.37 0.9369 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.7 0 123.6 19.37 0.9369 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.5 0 123.6 19.37 0.9368 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.5 0 123.6 19.37 0.9368 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.4 0 123.6 19.37 0.9367 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.3 0 123.6 19.37 0.9367 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.3 0 123.6 19.37 0.9367 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.2 0 123.6 19.37 0.9366 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.1 0 123.6 19.37 0.9366 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.1 0 123.6 19.37 0.9366 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.0 0 123.6 19.37 0.9366 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11166.0 0 123.7 19.37 0.9365 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.9 0 123.7 19.37 0.9365 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.9 0 123.7 19.37 0.9365 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.8 0 123.7 19.37 0.9365 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.8 0 123.7 19.37 0.9364 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.7 0 123.7 19.37 0.9364 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.7 0 123.7 19.37 0.9364 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.7 0 123.7 19.37 0.9364 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.7 0 123.7 19.37 0.9364 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.6 0 123.7 19.37 0.9363 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.6 0 123.7 19.37 0.9363 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.5 0 123.7 19.37 0.9363 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.5 0 123.7 19.37 0.9363 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.5 0 123.7 19.37 0.9363 9.500
0.000 120.8 19.37 9.500
11165.4 0 123.7 19.37 0.9363 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.4 0 123.7 19.37 0.9363 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.4 0 123.7 19.37 0.9362 9.500
0.000 120.8 19.37 9.500
11165.3 0 123.7 19.37 0.9362 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.3 0 123.7 19.37 0.9362 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.2 0 123.7 19.37 0.9362 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.2 0 123.7 19.37 0.9362 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.2 1 123.7 19.37 0.9361 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.1 0 123.7 19.37 0.9361 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.1 0 123.7 19.37 0.9361 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.1 0 123.7 19.37 0.9361 9.500
0.000 120.8 19.37 9.500
11165.0 1 123.7 19.37 0.9361 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.0 1 123.7 19.37 0.9360 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.0 0 123.7 19.37 0.9360 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11165.0 1 123.7 19.37 0.9360 9.500
0.000 120.8 19.37 9.500
11164.9 1 123.7 19.37 0.9360 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11164.8 1 123.7 19.37 0.9360 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11164.8 0 123.7 19.37 0.9359 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
11164.8 1 123.7 19.37 0.9359 9.500
0.000 120.8 19.37 9.500
11164.8 0 123.7 19.37 0.9359 9.500
0.000 120.8 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.44E-05 | 0.00 0.00 -1.00 -0.01 0.00
2.03E-02 | 0.20 0.00 0.00 -0.98 -0.07
2.49E-02 | -0.98 -0.03 0.01 -0.20 -0.02
4.65E+00 | -0.03 0.94 0.00 -0.03 0.33
2.49E+00 | 0.00 -0.34 0.00 -0.06 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 123.703 +/- 0.173494 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.09787 1
3 3 1 gaussian norm 0.935942 +/- 0.483828E-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 120.835 +/- 0.184263 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.64958 2
8 3 3 gaussian norm 0.935942 = par 3 2
9 8 4 powerlaw PhoIndex 9.50002 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 11164.79 using 198 PHA bins.
Reduced chi-squared = 58.76206 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 ( 56.674) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 56.674) > 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 0.8324 photons ( 1.7046E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8039 photons ( 1.6213E-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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_slow.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_fast.pha
with integration time 6.1106E+04
Background file : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 20:20:58 12-Jun-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 2.117 +/- 5.8859E-03
Net count rate (cts/s) for file 2 2.117 +/- 5.8859E-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 = 714917.6 using 168 PHA bins.
Reduced chi-squared = 4468.235 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12542.11 using 168 PHA bins.
Reduced chi-squared = 78.38818 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1640.09 -3 86.09 12.47 0.1158 0.9510
0.4494 86.70 11.42 0.9446
565.754 -4 77.77 11.48 0.1241 0.9235
0.4401 80.71 10.83 0.9248
453.795 -5 81.16 9.863 0.1248 0.9687
0.5197 82.29 10.13 0.9681
422.211 -6 80.14 10.54 0.1320 0.9658
0.5192 82.07 10.70 0.9668
415.062 -7 80.24 9.956 0.1293 0.9615
0.5120 82.05 10.33 0.9627
414.379 -8 80.18 9.955 0.1314 0.9644
0.5163 82.05 10.50 0.9653
414.357 -9 80.18 9.941 0.1311 0.9638
0.5154 82.05 10.46 0.9648
414.356 -10 80.18 9.949 0.1312 0.9640
0.5158 82.05 10.47 0.9650
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.42E-07 | 0.00 0.00 -0.37 0.56 -0.51 0.00 0.00 0.54
1.53E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.86E-06 | 0.00 0.01 -0.93 -0.20 0.22 0.00 0.03 -0.22
8.51E-04 | 0.03 0.01 -0.02 -0.39 -0.81 0.03 0.21 -0.37
1.92E-03 | -0.01 -0.07 0.03 0.09 0.17 0.01 0.97 0.09
6.88E-02 | 0.83 0.52 0.00 0.01 0.03 -0.19 0.04 0.01
8.79E-02 | -0.46 0.44 0.00 -0.01 -0.02 -0.77 0.04 -0.01
7.83E-02 | -0.32 0.73 0.01 0.01 0.02 0.61 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 80.1770 +/- 0.271524 1
2 2 1 gaussian Sigma keV 9.94856 +/- 0.277897 1
3 3 1 gaussian norm 0.131227 +/- 0.347158E-02 1
4 4 2 powerlaw PhoIndex 0.964038 +/- 0.131669E-01 1
5 5 2 powerlaw norm 0.515757 +/- 0.267305E-01 1
6 6 3 gaussian LineE keV 82.0475 +/- 0.289200 2
7 7 3 gaussian Sigma keV 10.4738 +/- 0.467117E-01 2
8 3 3 gaussian norm 0.131227 = par 3 2
9 8 4 powerlaw PhoIndex 0.964995 +/- 0.126513E-01 2
10 5 4 powerlaw norm 0.515757 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 414.3556 using 168 PHA bins.
Reduced chi-squared = 2.589723 for 160 degrees of freedom
Null hypothesis probability = 1.861E-24
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 ( 2.481) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.481) > 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 0.8088 photons ( 9.7568E-08 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8061 photons ( 9.7624E-08 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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.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 : ae802022010_hxdmkgainhist_tmp/ae802022010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 6.1106E+04
No current background
No current correction
Response (RMF) file : ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.503195133234339E+08 2.503255274464851E+08 2.503314954458328E+08 2.503374874451814E+08 2.503432874446603E+08 2.503813274408993E+08 2.503874634403393E+08 2.503935674399566E+08 2.503996913154696E+08 2.504058293149262E+08 2.504118113145397E+08 2.504177814374614E+08 2.504237494362884E+08 2.504295094351572E+08 2.504676534286249E+08 2.504737894280595E+08
=====gti=====
=====redu_chi=====
48.46163
=====best line=====
80.1775 0.271506
=====best sigma=====
9.94597 0.277966
=====norm=====
0.131196 0.347525E-02
=====phoindx=====
0.963989 0.131757E-01
=====pow_norm=====
0.515688 0.267624E-01
=====best line=====
82.0472 0.289403
=====best sigma=====
10.4705 0.467653E-01
=====norm=====
0.131196 par
=====phoindx=====
0.964953 0.126597E-01
=====pow_norm=====
0.515688 par
=====redu_chi=====
2.589721
=====area_flux=====
0.8089
=====area_flux_f=====
0.8061
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 15 1 640 2000 1282.84 0 0.131196 0.347525E-02 9.94597 0.277966 0.963989 0.131757E-01 0.515688 0.267624E-01 0.8089 640 2000 1312.7552 0 0.131196 0.347525E-02 10.4705 0.467653E-01 0.964953 0.126597E-01 0.515688 0.267624E-01 0.8061 2.589721 0
=====redu_chi=====
355.8440
=====best line=====
123.703 0.173494
=====best sigma=====
19.3655 2.09787
=====norm=====
0.935942 0.483828E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
120.835 0.184263
=====best sigma=====
19.3655 1.64958
=====norm=====
0.935942 par
=====phoindx=====
9.50002 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
58.76206
=====area_flux=====
0.8324
=====area_flux_f=====
0.8039
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 15 1 1600 3200 1979.248 0 0.935942 0.483828E-02 309.848 33.56592 9.50000 -1.00000 0.00000 -1.00000 0.8324 1600 3200 1933.36 0 0.935942 0.483828E-02 309.848 26.39328 9.50002 -1.00000 0.00000 -1.00000 0.8039 58.76206 1
=====redu_chi=====
78.38818
=====best line=====
80.1770 0.271524
=====best sigma=====
9.94856 0.277897
=====norm=====
0.131227 0.347158E-02
=====phoindx=====
0.964038 0.131669E-01
=====pow_norm=====
0.515757 0.267305E-01
=====best line=====
82.0475 0.289200
=====best sigma=====
10.4738 0.467117E-01
=====norm=====
0.131227 par
=====phoindx=====
0.964995 0.126513E-01
=====pow_norm=====
0.515757 par
=====redu_chi=====
2.589723
=====area_flux=====
0.8088
=====area_flux_f=====
0.8061
=====exp=====
6.1106E+04
=====exp=====
6.1106E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.503195133234339E+08 2.504778494268275E+08 6.1106E+04 15 1 640 2000 1282.832 0 0.131227 0.347158E-02 9.94856 0.277897 0.964038 0.131669E-01 0.515757 0.267305E-01 0.8088 640 2000 1312.76 0 0.131227 0.347158E-02 10.4738 0.467117E-01 0.964995 0.126513E-01 0.515757 0.267305E-01 0.8061 2.589723 0
rm -rf ae802022010_xspec*.log xspec*.xcm xautosav.xcm ae802022010_hxdmkgainhist_tmp/ae802022010dmy.rsp
rm -rf ae802022010_hxdmkgainhist_tmp
-> hxdmkgainhist_gso successful for ae802022010hxd_2_wel.sff.input_name,f,a,"ae802022010hxd_2_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae802022010hxd_0.hk",,,"HK file name" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" process_id,s,a,"ae802022010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_pin
FFF= ae802022010hxd_2_wel.sff, HK= ae802022010hxd_0.hk TSTART 2.504067673159870E+08, TSOP 2.504781853228190E+08-> hxdmkgainhist_pin successful for ae802022010hxd_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,"ae802022010hxd_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,"2008-06-12",,,"Valid Date (YYYY-MM-DD)for Gain History Files" valid_time,s,a,"20:21:01",,,"Valid Time (hh:mm:ss) for Gain History Files" pin_gainhist_name,f,a,"!ae802022010hxd_2_pin.ghf",,,"HXD pin gainhistory file name" gso_gainhist_name,f,a,"!ae802022010hxd_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 0.016 0.001 0.017 12.59
[ 2] HXDleapsecInit 0.005 0.002 0.007 5.18
[ 3] HXDmkgainhistWriteGHF 0.066 0.002 0.068 50.37
[ 4] HXDmkgainhistWritePHA 0.003 0.001 0.004 2.96
(others) 0.029 0.010 0.039 28.89
--------------------------------------------------------------------------
TOTAL 0.119 0.016 0.135 100.00
-> hxdmkgainhist successful for ae802022010hxd_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,"ae802022010hxd_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: ae802022010hxd_0.hk
2: ae802022010.ehk
HXDpi_init: time duration = 250406767.315987 -- 250478185.322819
Opening GSO calibration files OK
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TEMP_W10_CAL' at hdu=2, col=111 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W11_CAL' at hdu=2, col=112 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W12_CAL' at hdu=2, col=113 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W13_CAL' at hdu=2, col=114 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W20_CAL' at hdu=2, col=115 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W21_CAL' at hdu=2, col=116 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W22_CAL' at hdu=2, col=117 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W23_CAL' at hdu=2, col=118 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W00_CAL' at hdu=2, col=119 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W01_CAL' at hdu=2, col=120 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W02_CAL' at hdu=2, col=121 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W03_CAL' at hdu=2, col=122 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W30_CAL' at hdu=2, col=123 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W31_CAL' at hdu=2, col=124 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W32_CAL' at hdu=2, col=125 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W33_CAL' at hdu=2, col=126 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T10_CAL' at hdu=2, col=127 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T12_CAL' at hdu=2, col=128 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T14_CAL' at hdu=2, col=129 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T21_CAL' at hdu=2, col=130 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T23_CAL' at hdu=2, col=131 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W2_CAL' at hdu=2, col=132 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P1_CAL' at hdu=2, col=133 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T1_CAL' at hdu=2, col=134 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T00_CAL' at hdu=2, col=135 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T02_CAL' at hdu=2, col=136 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T04_CAL' at hdu=2, col=137 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T31_CAL' at hdu=2, col=138 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T33_CAL' at hdu=2, col=139 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W0_CAL' at hdu=2, col=140 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P0_CAL' at hdu=2, col=141 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T3_CAL' at hdu=2, col=142 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP4_CAL' at hdu=2, col=143 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP3_CAL' at hdu=2, col=144 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY4_CAL' at hdu=2, col=145 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY3_CAL' at hdu=2, col=146 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM3_CAL' at hdu=2, col=147 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM4_CAL' at hdu=2, col=148 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR3_CAL' at hdu=2, col=149 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CENTER_CAL' at hdu=2, col=150 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP2_CAL' at hdu=2, col=151 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP1_CAL' at hdu=2, col=152 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY2_CAL' at hdu=2, col=153 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY1_CAL' at hdu=2, col=154 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM1_CAL' at hdu=2, col=155 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM2_CAL' at hdu=2, col=156 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR1_CAL' at hdu=2, col=157 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR2_CAL' at hdu=2, col=158 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'T_SAA_HXD' at hdu=2, col=29 in 'ae802022010.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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7089482
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 7089481/7089482
[ 2] HXDrndInit version 0.2.0
| OK: 7089481/7089481
[ 3] HXDgethkInit version 0.1.0
| OK: 7089481/7089481
[ 4] HXDpiFITS version 2.1.3
| OK: 7089481/7089481
[ 5] HXDpi version 2.1.3
| OK: 7089481/7089481
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 7089481/7089481
GET: 7089481
*** 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 7089481 0 SINGLE
HXD:WEL:EV_TIME 8 8 7089481 7089481 SINGLE
HXD:WEL:MTI 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 7089481 7089481 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_RESERV 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 7089481 7089481 SINGLE
HXD:WEL:DET_TYPE 4 4 7089481 7089481 SINGLE
HXD:WEL:PI_FAST 4 4 14178962 7089481 SINGLE
HXD:WEL:PI_SLOW 4 4 14178962 7089481 SINGLE
HXD:WEL:PI_PIN 16 16 14178962 7089481 SINGLE
HXD:WEL:UPI_FAST 8 8 14178962 7089481 SINGLE
HXD:WEL:UPI_SLOW 8 8 14178962 7089481 SINGLE
HXD:WEL:UPI_PIN 32 32 14178962 7089481 SINGLE
HXD:WEL:PIN_ID 4 4 7089481 7089481 SINGLE
HXD:WEL:UNITID 4 4 7089481 7089481 SINGLE
HXD:WEL:LENGTH_CHK 4 4 7089481 7089481 SINGLE
HXD:WEL:WELTIME 4 4 7089481 7089481 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 7089481 7089481 SINGLE
HXD:WEL:TRIG 4 4 7089481 7089481 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 7089481 7089481 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 7089481 7089481 SINGLE
HXD:WEL:PHA_FAST 4 4 7089481 7089481 SINGLE
HXD:WEL:PHA_SLOW 4 4 7089481 7089481 SINGLE
HXD:WEL:PHA_PIN 16 16 7089481 7089481 SINGLE
HXD:WEL:PACKET_AETIME 8 8 7089481 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 7089481 14178962 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 7089481 7089481 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 7089481 14178962 SINGLE
HXD:WEL:EVENT 204 204 14178962 14178962 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 14902 7089481 SINGLE
HXDpi:EHKDATA 136 136 14902 7089481 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 162.377 8.735 171.112 38.09
[ 2] HXDrndInit 2.561 4.249 6.810 1.52
[ 3] HXDgethkInit 1.677 3.934 5.611 1.25
[ 4] HXDpiFITS 6.075 7.999 14.074 3.13
[ 5] HXDpi 53.507 4.303 57.810 12.87
[ 6] HXD2ndeventFitsWrite 160.461 33.312 193.773 43.14
(others) 0.017 0.011 0.028 0.01
--------------------------------------------------------------------------
TOTAL 386.674 62.543 449.218 100.00
-> hxdpi successful for ae802022010hxd_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,"ae802022010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7089482
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 7089481/7089482
[ 2] HXDleapsecInit version 2.0.1
| OK: 7089481/7089481
[ 3] HXDgradeFITS version 2.0.4
| OK: 7089481/7089481
[ 4] HXDgrade version 2.0.3
| OK: 7089481/7089481
[ 5] HXD2ndeventFitsWrite version 2.0.4
| OK: 7089481/7089481
GET: 7089481
*** 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 7089481 0 SINGLE
HXD:WEL:EV_TIME 8 8 7089481 7089481 SINGLE
HXD:WEL:MTI 4 4 7089481 7089481 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 14178962 7089481 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 14178962 7089481 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 14178962 7089481 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 14178962 7089481 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 14178962 7089481 SINGLE
HXD:WEL:GRADE_RESERV 4 4 14178962 7089481 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 14178962 7089481 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 14178962 7089481 SINGLE
HXD:WEL:DET_TYPE 4 4 14178962 7089481 SINGLE
HXD:WEL:PI_FAST 4 4 7089481 7089481 SINGLE
HXD:WEL:PI_SLOW 4 4 7089481 7089481 SINGLE
HXD:WEL:PI_PIN 16 16 7089481 7089481 SINGLE
HXD:WEL:UPI_FAST 8 8 7089481 7089481 SINGLE
HXD:WEL:UPI_SLOW 8 8 7089481 7089481 SINGLE
HXD:WEL:UPI_PIN 32 32 7089481 7089481 SINGLE
HXD:WEL:PIN_ID 4 4 14178962 7089481 SINGLE
HXD:WEL:UNITID 4 4 7089481 7089481 SINGLE
HXD:WEL:LENGTH_CHK 4 4 7089481 7089481 SINGLE
HXD:WEL:WELTIME 4 4 7089481 7089481 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 7089481 7089481 SINGLE
HXD:WEL:TRIG 4 4 7089481 7089481 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 7089481 7089481 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 7089481 7089481 SINGLE
HXD:WEL:PHA_FAST 4 4 7089481 7089481 SINGLE
HXD:WEL:PHA_SLOW 4 4 7089481 7089481 SINGLE
HXD:WEL:PHA_PIN 16 16 7089481 7089481 SINGLE
HXD:WEL:PACKET_AETIME 8 8 7089481 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 7089481 7089481 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 7089481 7089481 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 7089481 7089481 SINGLE
HXD:WEL:EVENT 204 204 7089481 7089481 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 158.800 6.949 165.749 42.36
[ 2] HXDleapsecInit 2.047 4.494 6.541 1.67
[ 3] HXDgradeFITS 1.465 3.935 5.400 1.38
[ 4] HXDgrade 15.624 3.944 19.568 5.00
[ 5] HXD2ndeventFitsWrite 159.949 34.057 194.005 49.58
(others) 0.017 0.009 0.026 0.01
--------------------------------------------------------------------------
TOTAL 337.901 53.389 391.290 100.00
-> hxdgrade successful for ae802022010hxd_2_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,"ae802022010hxd_0_proc.hk",,,"HXD scl fits file name ?" hklist_name,f,a,"ae802022010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae802022010.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 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae802022010hxd_0.hk'
Event... 100001 (100000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 157913
QUIT: 1 |
<--- [ 1] HXDsclFitsRead version 0.4.7
| OK: 157912/157913
[ 2] HXDgethkInit version 0.1.0
| OK: 157912/157912
[ 3] HXDleapsecInit version 2.0.1
| OK: 157912/157912
[ 4] HXDfsclTimeFITS version 0.3.6
| OK: 157912/157912
[ 5] HXDfsclTime version 0.3.8
| OK: 157912/157912
[ 6] HXD2ndsclFitsWrite version 0.2.1
| OK: 157912/157912
GET: 157912
*** 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 157912 0 SINGLE
HXD:SCL:PACKET_S_TIME 8 8 157912 315820 SINGLE
HXD:SCL:PACKET_SEC_HEADER 4 4 157912 157908 SINGLE
HXD:SCL:EV_TIME 8 8 157912 157912 SINGLE
HXD:SCL:TIME 4 4 157912 157908 SINGLE
HXD:SCL:BOARD 4 4 157912 157908 SINGLE
HXDsclFitsRead:IROW 4 4 157912 157912 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 197392 315824 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 19738 19738 SINGLE
HXDfsclTime:HXD_AE_TM_LATCH_TM 4 4 19738 19738 SINGLE
HXDfsclTime:HXD_SYS_TIME 8 8 19738 0 SINGLE
HXDfsclTime:HXD_HK_TIME 8 8 19738 0 SINGLE
HXDfsclTime:HXD_WPU_CLK_RATE 4 4 19738 19738 SINGLE
HXDfsclTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfsclTime:TIME_INVALID 4 4 157912 0 SINGLE
HXDfsclTime:EV_TIME_TLM 8 8 157908 0 SINGLE
HXDfsclTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDsclFitsRead 0.664 0.218 0.882 38.62
[ 2] HXDgethkInit 0.023 0.098 0.121 5.30
[ 3] HXDleapsecInit 0.031 0.102 0.133 5.82
[ 4] HXDfsclTimeFITS 0.161 0.148 0.309 13.53
[ 5] HXDfsclTime 0.433 0.113 0.546 23.91
[ 6] HXD2ndsclFitsWrite 0.170 0.101 0.271 11.86
(others) 0.013 0.009 0.022 0.96
--------------------------------------------------------------------------
TOTAL 1.495 0.789 2.284 100.00
-> hxdscltime successful for ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae802022010.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 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae802022010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 351593
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 351592/351593
[ 2] HXDgethkInit version 0.1.0
| OK: 351592/351592
[ 3] HXDleapsecInit version 2.0.1
| OK: 351592/351592
[ 4] HXDftrnTimeFITS version 0.3.3
| OK: 351592/351592
[ 5] HXDftrnTime version 0.3.3
| OK: 351592/351592
[ 6] HXD2ndtrnFitsWrite version 0.3.1
| OK: 351592/351592
GET: 351592
*** 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 703184 351592 SINGLE
HXD:TRN:PACKET_AETIME 8 8 351592 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 351592 1054728 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 351592 703160 SINGLE
HXD:TRB:IBLOCK 4 4 351592 703160 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 351592 351592 SINGLE
HXD:TRN:BOARD 4 4 351592 703160 SINGLE
HXD:TRN:BLOCK 4 4 351592 703160 SINGLE
HXD:TRN:RDBIN 4 4 351592 351592 SINGLE
HXD:TRN:TBLID 4 4 351592 351592 SINGLE
HXD:TRN:DATA_SIZE 4 4 351592 351592 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 351592 351592 SINGLE
HXD:TRH:BLOCK 4 4 351592 351592 SINGLE
HXD:TRH:TIME 4 4 351592 703160 SINGLE
HXD:TRH:GB_TIME 4 4 351592 351592 SINGLE
HXD:TRH:GB_FLG 4 4 351592 351592 SINGLE
HXD:TRH:TIME_MODE 4 4 351592 703160 SINGLE
HXD:TRH:RBM 4 4 351592 351592 SINGLE
HXD:TRH:GB_FRZ 4 4 351592 351592 SINGLE
HXD:TRH:DT_MODE 4 4 351592 351592 SINGLE
HXD:TRH:SUMLD_MODE 4 4 351592 351592 SINGLE
HXD:TRH:BOARD 4 4 351592 351592 SINGLE
HXD:TRH:GB_TRG 4 4 351592 351592 SINGLE
HXD:TRB:PI 216 216 351592 351592 SINGLE
HXD:TRB:PH 216 216 351592 351592 SINGLE
HXD:TRB:OVER_FLOW 4 4 351592 351592 SINGLE
HXD:TRB:PSEUDO 4 4 351592 351592 SINGLE
HXD:TRB:TRN_ANT 20 20 351592 351592 SINGLE
HXD:TRB:UD 4 4 351592 351592 SINGLE
HXD:TRB:DEAD_TIME 4 4 351592 351592 SINGLE
HXD:TRB:SUM_LD 4 4 351592 351592 SINGLE
HXD:TRB:WELL_ANT 16 16 351592 351592 SINGLE
HXD:TRN:TRN_QUALITY 4 4 351592 351592 SINGLE
HXDtrnFitsRead:IROW 4 4 351592 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 375710 1054776 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 12047 12047 SINGLE
HXDftrnTime:HXD_AE_TM_LATCH_TM 4 4 12047 12047 SINGLE
HXDftrnTime:HXD_SYS_TIME 8 8 12047 0 SINGLE
HXDftrnTime:HXD_HK_TIME 8 8 12047 0 SINGLE
HXDftrnTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDftrnTime:TIME_INVALID 4 4 351592 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 8.243 0.737 8.980 40.96
[ 2] HXDgethkInit 0.092 0.244 0.336 1.53
[ 3] HXDleapsecInit 0.071 0.226 0.297 1.35
[ 4] HXDftrnTimeFITS 0.248 0.582 0.830 3.79
[ 5] HXDftrnTime 1.045 0.230 1.275 5.81
[ 6] HXD2ndtrnFitsWrite 8.319 1.864 10.182 46.45
(others) 0.014 0.010 0.024 0.11
--------------------------------------------------------------------------
TOTAL 18.031 3.892 21.924 100.00
-> hxdwamtime successful for ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 351593
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 351592/351593
[ 2] HXDleapsecInit version 2.0.1
| OK: 351592/351592
[ 3] HXDmktrngainhist version 0.1.2
| OK: 351592/351592
GET: 351592
*** 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 351592 351592 SINGLE
HXD:TRN:PACKET_AETIME 8 8 351592 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 351592 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 351592 0 SINGLE
HXD:TRB:IBLOCK 4 4 351592 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 351592 0 SINGLE
HXD:TRN:BOARD 4 4 351592 0 SINGLE
HXD:TRN:BLOCK 4 4 351592 0 SINGLE
HXD:TRN:RDBIN 4 4 351592 0 SINGLE
HXD:TRN:TBLID 4 4 351592 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 351592 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 351592 0 SINGLE
HXD:TRH:BLOCK 4 4 351592 0 SINGLE
HXD:TRH:TIME 4 4 351592 0 SINGLE
HXD:TRH:GB_TIME 4 4 351592 0 SINGLE
HXD:TRH:GB_FLG 4 4 351592 0 SINGLE
HXD:TRH:TIME_MODE 4 4 351592 0 SINGLE
HXD:TRH:RBM 4 4 351592 0 SINGLE
HXD:TRH:GB_FRZ 4 4 351592 0 SINGLE
HXD:TRH:DT_MODE 4 4 351592 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 351592 0 SINGLE
HXD:TRH:BOARD 4 4 351592 0 SINGLE
HXD:TRH:GB_TRG 4 4 351592 0 SINGLE
HXD:TRB:PI 216 216 351592 0 SINGLE
HXD:TRB:PH 216 216 351592 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 351592 0 SINGLE
HXD:TRB:PSEUDO 4 4 351592 0 SINGLE
HXD:TRB:TRN_ANT 20 20 351592 0 SINGLE
HXD:TRB:UD 4 4 351592 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 351592 0 SINGLE
HXD:TRB:SUM_LD 4 4 351592 0 SINGLE
HXD:TRB:WELL_ANT 16 16 351592 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 351592 0 SINGLE
HXDtrnFitsRead:IROW 4 4 351592 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 351592 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 7.390 0.317 7.707 92.81
[ 2] HXDleapsecInit 0.083 0.171 0.254 3.06
[ 3] HXDmktrngainhist 0.155 0.168 0.323 3.89
(others) 0.015 0.005 0.020 0.24
--------------------------------------------------------------------------
TOTAL 7.643 0.661 8.304 100.00
-> hxdmkwamgainhist successful for ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 351593
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 351592/351593
[ 2] HXDgethkInit version 0.1.0
| OK: 351592/351592
[ 3] HXDtrnpi version 2.0.0
| OK: 351592/351592
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 351592/351592
GET: 351592
*** 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 351592 703184 SINGLE
HXD:TRN:PACKET_AETIME 8 8 351592 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 351592 351592 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 351592 351592 SINGLE
HXD:TRB:IBLOCK 4 4 351592 351592 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 351592 351592 SINGLE
HXD:TRN:BOARD 4 4 351592 351592 SINGLE
HXD:TRN:BLOCK 4 4 351592 351592 SINGLE
HXD:TRN:RDBIN 4 4 351592 703184 SINGLE
HXD:TRN:TBLID 4 4 351592 351592 SINGLE
HXD:TRN:DATA_SIZE 4 4 351592 351592 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 351592 351592 SINGLE
HXD:TRH:BLOCK 4 4 351592 351592 SINGLE
HXD:TRH:TIME 4 4 351592 351592 SINGLE
HXD:TRH:GB_TIME 4 4 351592 351592 SINGLE
HXD:TRH:GB_FLG 4 4 351592 351592 SINGLE
HXD:TRH:TIME_MODE 4 4 351592 351592 SINGLE
HXD:TRH:RBM 4 4 351592 351592 SINGLE
HXD:TRH:GB_FRZ 4 4 351592 351592 SINGLE
HXD:TRH:DT_MODE 4 4 351592 351592 SINGLE
HXD:TRH:SUMLD_MODE 4 4 351592 351592 SINGLE
HXD:TRH:BOARD 4 4 351592 703184 SINGLE
HXD:TRH:GB_TRG 4 4 351592 351592 SINGLE
HXD:TRB:PI 216 216 703184 351592 SINGLE
HXD:TRB:PH 216 216 351592 703184 SINGLE
HXD:TRB:OVER_FLOW 4 4 351592 351592 SINGLE
HXD:TRB:PSEUDO 4 4 351592 351592 SINGLE
HXD:TRB:TRN_ANT 20 20 351592 351592 SINGLE
HXD:TRB:UD 4 4 351592 351592 SINGLE
HXD:TRB:DEAD_TIME 4 4 351592 351592 SINGLE
HXD:TRB:SUM_LD 4 4 351592 351592 SINGLE
HXD:TRB:WELL_ANT 16 16 351592 351592 SINGLE
HXD:TRN:TRN_QUALITY 4 4 351592 351592 SINGLE
HXDtrnFitsRead:IROW 4 4 351592 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 351592 351592 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 7.975 0.983 8.958 45.50
[ 2] HXDgethkInit 0.143 0.205 0.348 1.77
[ 3] HXDtrnpi 0.384 0.165 0.549 2.79
[ 4] HXD2ndtrnFitsWrite 8.278 1.529 9.807 49.81
(others) 0.018 0.007 0.025 0.13
--------------------------------------------------------------------------
TOTAL 16.797 2.889 19.686 100.00
-> hxdwampi successful for ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_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: 351593
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 351592/351593
[ 2] HXDgethkInit version 0.1.0
| OK: 351592/351592
[ 3] HXDtrngrade version 0.1.0
| OK: 351592/351592
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 351592/351592
GET: 351592
*** 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 351592 351592 SINGLE
HXD:TRN:PACKET_AETIME 8 8 351592 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 351592 351592 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 351592 351592 SINGLE
HXD:TRB:IBLOCK 4 4 351592 351592 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 351592 351592 SINGLE
HXD:TRN:BOARD 4 4 351592 351592 SINGLE
HXD:TRN:BLOCK 4 4 351592 351592 SINGLE
HXD:TRN:RDBIN 4 4 351592 351592 SINGLE
HXD:TRN:TBLID 4 4 351592 351592 SINGLE
HXD:TRN:DATA_SIZE 4 4 351592 351592 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 351592 351592 SINGLE
HXD:TRH:BLOCK 4 4 351592 351592 SINGLE
HXD:TRH:TIME 4 4 351592 351592 SINGLE
HXD:TRH:GB_TIME 4 4 351592 351592 SINGLE
HXD:TRH:GB_FLG 4 4 351592 351592 SINGLE
HXD:TRH:TIME_MODE 4 4 351592 351592 SINGLE
HXD:TRH:RBM 4 4 351592 351592 SINGLE
HXD:TRH:GB_FRZ 4 4 351592 351592 SINGLE
HXD:TRH:DT_MODE 4 4 351592 351592 SINGLE
HXD:TRH:SUMLD_MODE 4 4 351592 351592 SINGLE
HXD:TRH:BOARD 4 4 351592 351592 SINGLE
HXD:TRH:GB_TRG 4 4 351592 351592 SINGLE
HXD:TRB:PI 216 216 351592 351592 SINGLE
HXD:TRB:PH 216 216 351592 351592 SINGLE
HXD:TRB:OVER_FLOW 4 4 351592 351592 SINGLE
HXD:TRB:PSEUDO 4 4 351592 351592 SINGLE
HXD:TRB:TRN_ANT 20 20 351592 351592 SINGLE
HXD:TRB:UD 4 4 351592 351592 SINGLE
HXD:TRB:DEAD_TIME 4 4 351592 351592 SINGLE
HXD:TRB:SUM_LD 4 4 351592 351592 SINGLE
HXD:TRB:WELL_ANT 16 16 351592 351592 SINGLE
HXD:TRN:TRN_QUALITY 4 4 703184 351592 SINGLE
HXDtrnFitsRead:IROW 4 4 351592 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 351592 351592 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 7.970 0.806 8.776 44.95
[ 2] HXDgethkInit 0.117 0.190 0.307 1.57
[ 3] HXDtrngrade 0.124 0.176 0.300 1.54
[ 4] HXD2ndtrnFitsWrite 8.328 1.790 10.117 51.82
(others) 0.013 0.011 0.024 0.12
--------------------------------------------------------------------------
TOTAL 16.551 2.973 19.524 100.00
-> hxdwamgrade successful for ae802022010hxd_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,"ae802022010hxd_1_wam.sff",,,"HXD wam fits file name ?" create_name,f,h,"none",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae802022010hxd_0.hk",,,"HXD HK fits file list name ?" create_bstidt_name,f,a,"ae802022010hxd_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)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 351593
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 351592/351593
[ 2] HXDleapsecInit version 2.0.1
| OK: 351592/351592
[ 3] HXDgethkInit version 0.1.0
| OK: 351592/351592
[ 4] HXDwambstid version 0.0.2
| OK: 351592/351592
GET: 351592
*** 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 351592 0 SINGLE
HXD:TRN:PACKET_AETIME 8 8 351592 351560 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 351592 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 351592 351560 SINGLE
HXD:TRB:IBLOCK 4 4 351592 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 351592 0 SINGLE
HXD:TRN:BOARD 4 4 351592 0 SINGLE
HXD:TRN:BLOCK 4 4 351592 0 SINGLE
HXD:TRN:RDBIN 4 4 351592 0 SINGLE
HXD:TRN:TBLID 4 4 351592 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 351592 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 351592 0 SINGLE
HXD:TRH:BLOCK 4 4 351592 0 SINGLE
HXD:TRH:TIME 4 4 351592 0 SINGLE
HXD:TRH:GB_TIME 4 4 351592 0 SINGLE
HXD:TRH:GB_FLG 4 4 351592 0 SINGLE
HXD:TRH:TIME_MODE 4 4 351592 351560 SINGLE
HXD:TRH:RBM 4 4 351592 0 SINGLE
HXD:TRH:GB_FRZ 4 4 351592 351560 SINGLE
HXD:TRH:DT_MODE 4 4 351592 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 351592 0 SINGLE
HXD:TRH:BOARD 4 4 351592 351560 SINGLE
HXD:TRH:GB_TRG 4 4 351592 0 SINGLE
HXD:TRB:PI 216 216 351592 0 SINGLE
HXD:TRB:PH 216 216 351592 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 351592 0 SINGLE
HXD:TRB:PSEUDO 4 4 351592 0 SINGLE
HXD:TRB:TRN_ANT 20 20 351592 0 SINGLE
HXD:TRB:UD 4 4 351592 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 351592 0 SINGLE
HXD:TRB:SUM_LD 4 4 351592 0 SINGLE
HXD:TRB:WELL_ANT 16 16 351592 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 351592 0 SINGLE
HXDtrnFitsRead:IROW 4 4 351592 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 351592 351592 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 7.615 0.305 7.920 88.92
[ 2] HXDleapsecInit 0.107 0.167 0.274 3.08
[ 3] HXDgethkInit 0.081 0.178 0.259 2.91
[ 4] HXDwambstid 0.273 0.158 0.431 4.84
(others) 0.014 0.009 0.023 0.26
--------------------------------------------------------------------------
TOTAL 8.090 0.817 8.907 100.00
-> hxdwambstid successful for ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae802022010.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 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae802022010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 285681
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 285680/285681
[ 2] HXDgethkInit version 0.1.0
| OK: 285680/285680
[ 3] HXDleapsecInit version 2.0.1
| OK: 285680/285680
[ 4] HXDftrnTimeFITS version 0.3.3
| OK: 285680/285680
[ 5] HXDftrnTime version 0.3.3
| OK: 285680/285680
[ 6] HXD2ndtrnFitsWrite version 0.3.1
| OK: 285680/285680
GET: 285680
*** 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 571360 285680 SINGLE
HXD:TRN:PACKET_AETIME 8 8 285680 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 285680 857040 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 285680 571360 SINGLE
HXD:TRB:IBLOCK 4 4 285680 571360 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 285680 285680 SINGLE
HXD:TRN:BOARD 4 4 285680 571360 SINGLE
HXD:TRN:BLOCK 4 4 285680 571360 SINGLE
HXD:TRN:RDBIN 4 4 285680 285680 SINGLE
HXD:TRN:TBLID 4 4 285680 285680 SINGLE
HXD:TRN:DATA_SIZE 4 4 285680 285680 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 285680 285680 SINGLE
HXD:TRH:BLOCK 4 4 285680 285680 SINGLE
HXD:TRH:TIME 4 4 285680 571360 SINGLE
HXD:TRH:GB_TIME 4 4 285680 285680 SINGLE
HXD:TRH:GB_FLG 4 4 285680 285680 SINGLE
HXD:TRH:TIME_MODE 4 4 285680 571360 SINGLE
HXD:TRH:RBM 4 4 285680 285680 SINGLE
HXD:TRH:GB_FRZ 4 4 285680 285680 SINGLE
HXD:TRH:DT_MODE 4 4 285680 285680 SINGLE
HXD:TRH:SUMLD_MODE 4 4 285680 285680 SINGLE
HXD:TRH:BOARD 4 4 285680 285680 SINGLE
HXD:TRH:GB_TRG 4 4 285680 285680 SINGLE
HXD:TRB:PI 216 216 285680 285680 SINGLE
HXD:TRB:PH 216 216 285680 285680 SINGLE
HXD:TRB:OVER_FLOW 4 4 285680 285680 SINGLE
HXD:TRB:PSEUDO 4 4 285680 285680 SINGLE
HXD:TRB:TRN_ANT 20 20 285680 285680 SINGLE
HXD:TRB:UD 4 4 285680 285680 SINGLE
HXD:TRB:DEAD_TIME 4 4 285680 285680 SINGLE
HXD:TRB:SUM_LD 4 4 285680 285680 SINGLE
HXD:TRB:WELL_ANT 16 16 285680 285680 SINGLE
HXD:TRN:TRN_QUALITY 4 4 285680 285680 SINGLE
HXDtrnFitsRead:IROW 4 4 285680 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 301060 857040 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 7690 7690 SINGLE
HXDftrnTime:HXD_AE_TM_LATCH_TM 4 4 7690 7690 SINGLE
HXDftrnTime:HXD_SYS_TIME 8 8 7690 0 SINGLE
HXDftrnTime:HXD_HK_TIME 8 8 7690 0 SINGLE
HXDftrnTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDftrnTime:TIME_INVALID 4 4 285680 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 6.784 0.579 7.363 41.48
[ 2] HXDgethkInit 0.100 0.175 0.275 1.55
[ 3] HXDleapsecInit 0.080 0.176 0.256 1.44
[ 4] HXDftrnTimeFITS 0.210 0.535 0.745 4.20
[ 5] HXDftrnTime 0.864 0.141 1.005 5.66
[ 6] HXD2ndtrnFitsWrite 6.588 1.494 8.082 45.53
(others) 0.015 0.010 0.025 0.14
--------------------------------------------------------------------------
TOTAL 14.641 3.110 17.750 100.00
-> hxdwamtime successful for ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 285681
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 285680/285681
[ 2] HXDleapsecInit version 2.0.1
| OK: 285680/285680
[ 3] HXDmktrngainhist version 0.1.2
| OK: 285680/285680
GET: 285680
*** 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 285680 285680 SINGLE
HXD:TRN:PACKET_AETIME 8 8 285680 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 285680 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 285680 0 SINGLE
HXD:TRB:IBLOCK 4 4 285680 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 285680 0 SINGLE
HXD:TRN:BOARD 4 4 285680 0 SINGLE
HXD:TRN:BLOCK 4 4 285680 0 SINGLE
HXD:TRN:RDBIN 4 4 285680 0 SINGLE
HXD:TRN:TBLID 4 4 285680 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 285680 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 285680 0 SINGLE
HXD:TRH:BLOCK 4 4 285680 0 SINGLE
HXD:TRH:TIME 4 4 285680 0 SINGLE
HXD:TRH:GB_TIME 4 4 285680 0 SINGLE
HXD:TRH:GB_FLG 4 4 285680 0 SINGLE
HXD:TRH:TIME_MODE 4 4 285680 0 SINGLE
HXD:TRH:RBM 4 4 285680 0 SINGLE
HXD:TRH:GB_FRZ 4 4 285680 0 SINGLE
HXD:TRH:DT_MODE 4 4 285680 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 285680 0 SINGLE
HXD:TRH:BOARD 4 4 285680 0 SINGLE
HXD:TRH:GB_TRG 4 4 285680 0 SINGLE
HXD:TRB:PI 216 216 285680 0 SINGLE
HXD:TRB:PH 216 216 285680 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 285680 0 SINGLE
HXD:TRB:PSEUDO 4 4 285680 0 SINGLE
HXD:TRB:TRN_ANT 20 20 285680 0 SINGLE
HXD:TRB:UD 4 4 285680 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 285680 0 SINGLE
HXD:TRB:SUM_LD 4 4 285680 0 SINGLE
HXD:TRB:WELL_ANT 16 16 285680 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 285680 0 SINGLE
HXDtrnFitsRead:IROW 4 4 285680 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 285680 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 6.157 0.241 6.398 91.91
[ 2] HXDleapsecInit 0.107 0.164 0.271 3.89
[ 3] HXDmktrngainhist 0.138 0.134 0.272 3.91
(others) 0.014 0.006 0.020 0.29
--------------------------------------------------------------------------
TOTAL 6.416 0.545 6.961 100.00
-> hxdmkwamgainhist successful for ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 285681
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 285680/285681
[ 2] HXDgethkInit version 0.1.0
| OK: 285680/285680
[ 3] HXDtrnpi version 2.0.0
| OK: 285680/285680
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 285680/285680
GET: 285680
*** 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 285680 571360 SINGLE
HXD:TRN:PACKET_AETIME 8 8 285680 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 285680 285680 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 285680 285680 SINGLE
HXD:TRB:IBLOCK 4 4 285680 285680 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 285680 285680 SINGLE
HXD:TRN:BOARD 4 4 285680 285680 SINGLE
HXD:TRN:BLOCK 4 4 285680 285680 SINGLE
HXD:TRN:RDBIN 4 4 285680 571360 SINGLE
HXD:TRN:TBLID 4 4 285680 285680 SINGLE
HXD:TRN:DATA_SIZE 4 4 285680 285680 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 285680 285680 SINGLE
HXD:TRH:BLOCK 4 4 285680 285680 SINGLE
HXD:TRH:TIME 4 4 285680 285680 SINGLE
HXD:TRH:GB_TIME 4 4 285680 285680 SINGLE
HXD:TRH:GB_FLG 4 4 285680 285680 SINGLE
HXD:TRH:TIME_MODE 4 4 285680 285680 SINGLE
HXD:TRH:RBM 4 4 285680 285680 SINGLE
HXD:TRH:GB_FRZ 4 4 285680 285680 SINGLE
HXD:TRH:DT_MODE 4 4 285680 285680 SINGLE
HXD:TRH:SUMLD_MODE 4 4 285680 285680 SINGLE
HXD:TRH:BOARD 4 4 285680 571360 SINGLE
HXD:TRH:GB_TRG 4 4 285680 285680 SINGLE
HXD:TRB:PI 216 216 571360 285680 SINGLE
HXD:TRB:PH 216 216 285680 571360 SINGLE
HXD:TRB:OVER_FLOW 4 4 285680 285680 SINGLE
HXD:TRB:PSEUDO 4 4 285680 285680 SINGLE
HXD:TRB:TRN_ANT 20 20 285680 285680 SINGLE
HXD:TRB:UD 4 4 285680 285680 SINGLE
HXD:TRB:DEAD_TIME 4 4 285680 285680 SINGLE
HXD:TRB:SUM_LD 4 4 285680 285680 SINGLE
HXD:TRB:WELL_ANT 16 16 285680 285680 SINGLE
HXD:TRN:TRN_QUALITY 4 4 285680 285680 SINGLE
HXDtrnFitsRead:IROW 4 4 285680 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 285680 285680 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 6.402 0.759 7.161 44.80
[ 2] HXDgethkInit 0.078 0.181 0.259 1.62
[ 3] HXDtrnpi 0.338 0.139 0.477 2.98
[ 4] HXD2ndtrnFitsWrite 6.740 1.322 8.062 50.44
(others) 0.018 0.006 0.024 0.15
--------------------------------------------------------------------------
TOTAL 13.576 2.407 15.983 100.00
-> hxdwampi successful for ae802022010hxd_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,"ae802022010hxd_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,"ae802022010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 285681
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 285680/285681
[ 2] HXDgethkInit version 0.1.0
| OK: 285680/285680
[ 3] HXDtrngrade version 0.1.0
| OK: 285680/285680
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 285680/285680
GET: 285680
*** 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 285680 285680 SINGLE
HXD:TRN:PACKET_AETIME 8 8 285680 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 285680 285680 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 285680 285680 SINGLE
HXD:TRB:IBLOCK 4 4 285680 285680 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 285680 285680 SINGLE
HXD:TRN:BOARD 4 4 285680 285680 SINGLE
HXD:TRN:BLOCK 4 4 285680 285680 SINGLE
HXD:TRN:RDBIN 4 4 285680 285680 SINGLE
HXD:TRN:TBLID 4 4 285680 285680 SINGLE
HXD:TRN:DATA_SIZE 4 4 285680 285680 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 285680 285680 SINGLE
HXD:TRH:BLOCK 4 4 285680 285680 SINGLE
HXD:TRH:TIME 4 4 285680 285680 SINGLE
HXD:TRH:GB_TIME 4 4 285680 285680 SINGLE
HXD:TRH:GB_FLG 4 4 285680 285680 SINGLE
HXD:TRH:TIME_MODE 4 4 285680 285680 SINGLE
HXD:TRH:RBM 4 4 285680 285680 SINGLE
HXD:TRH:GB_FRZ 4 4 285680 285680 SINGLE
HXD:TRH:DT_MODE 4 4 285680 285680 SINGLE
HXD:TRH:SUMLD_MODE 4 4 285680 285680 SINGLE
HXD:TRH:BOARD 4 4 285680 285680 SINGLE
HXD:TRH:GB_TRG 4 4 285680 285680 SINGLE
HXD:TRB:PI 216 216 285680 285680 SINGLE
HXD:TRB:PH 216 216 285680 285680 SINGLE
HXD:TRB:OVER_FLOW 4 4 285680 285680 SINGLE
HXD:TRB:PSEUDO 4 4 285680 285680 SINGLE
HXD:TRB:TRN_ANT 20 20 285680 285680 SINGLE
HXD:TRB:UD 4 4 285680 285680 SINGLE
HXD:TRB:DEAD_TIME 4 4 285680 285680 SINGLE
HXD:TRB:SUM_LD 4 4 285680 285680 SINGLE
HXD:TRB:WELL_ANT 16 16 285680 285680 SINGLE
HXD:TRN:TRN_QUALITY 4 4 571360 285680 SINGLE
HXDtrnFitsRead:IROW 4 4 285680 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 285680 285680 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 6.423 0.601 7.024 44.23
[ 2] HXDgethkInit 0.103 0.163 0.266 1.67
[ 3] HXDtrngrade 0.101 0.163 0.264 1.66
[ 4] HXD2ndtrnFitsWrite 6.815 1.490 8.305 52.30
(others) 0.012 0.010 0.022 0.14
--------------------------------------------------------------------------
TOTAL 13.454 2.427 15.881 100.00
-> hxdwamgrade successful for ae802022010hxd_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,"ae802022010hxd_2_wam.sff",,,"HXD wam fits file name ?" create_name,f,h,"none",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae802022010hxd_0.hk",,,"HXD HK fits file list name ?" create_bstidt_name,f,a,"ae802022010hxd_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)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_GB_RD_CNT' at hdu=3, col=41 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae802022010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 285681
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 285680/285681
[ 2] HXDleapsecInit version 2.0.1
| OK: 285680/285680
[ 3] HXDgethkInit version 0.1.0
| OK: 285680/285680
[ 4] HXDwambstid version 0.0.2
| OK: 285680/285680
GET: 285680
*** 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 285680 0 SINGLE
HXD:TRN:PACKET_AETIME 8 8 285680 285672 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 285680 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 285680 285672 SINGLE
HXD:TRB:IBLOCK 4 4 285680 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 285680 0 SINGLE
HXD:TRN:BOARD 4 4 285680 0 SINGLE
HXD:TRN:BLOCK 4 4 285680 0 SINGLE
HXD:TRN:RDBIN 4 4 285680 0 SINGLE
HXD:TRN:TBLID 4 4 285680 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 285680 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 285680 0 SINGLE
HXD:TRH:BLOCK 4 4 285680 0 SINGLE
HXD:TRH:TIME 4 4 285680 0 SINGLE
HXD:TRH:GB_TIME 4 4 285680 0 SINGLE
HXD:TRH:GB_FLG 4 4 285680 0 SINGLE
HXD:TRH:TIME_MODE 4 4 285680 285672 SINGLE
HXD:TRH:RBM 4 4 285680 0 SINGLE
HXD:TRH:GB_FRZ 4 4 285680 285672 SINGLE
HXD:TRH:DT_MODE 4 4 285680 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 285680 0 SINGLE
HXD:TRH:BOARD 4 4 285680 285672 SINGLE
HXD:TRH:GB_TRG 4 4 285680 0 SINGLE
HXD:TRB:PI 216 216 285680 0 SINGLE
HXD:TRB:PH 216 216 285680 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 285680 0 SINGLE
HXD:TRB:PSEUDO 4 4 285680 0 SINGLE
HXD:TRB:TRN_ANT 20 20 285680 0 SINGLE
HXD:TRB:UD 4 4 285680 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 285680 0 SINGLE
HXD:TRB:SUM_LD 4 4 285680 0 SINGLE
HXD:TRB:WELL_ANT 16 16 285680 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 285680 0 SINGLE
HXDtrnFitsRead:IROW 4 4 285680 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 285680 285680 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 6.126 0.281 6.407 87.64
[ 2] HXDleapsecInit 0.092 0.150 0.242 3.31
[ 3] HXDgethkInit 0.066 0.148 0.214 2.93
[ 4] HXDwambstid 0.227 0.199 0.426 5.83
(others) 0.015 0.007 0.022 0.30
--------------------------------------------------------------------------
TOTAL 6.526 0.785 7.311 100.00
-> hxdwambstid successful for ae802022010hxd_2_wam.sff.Checksum keywords updated successfully.-> Running hxdbsttime on ae802022010hxd_2_bst01.fff.
read_iomode,s,h,"create",,,"HXD bst fits input I/O mode : overwrite or create ?" input_name,fr,a,"ae802022010hxd_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,"ae802022010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae802022010.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 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae802022010hxd_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 0.013 0.003 0.016 5.59
[ 2] HXDleapsecInit 0.002 0.002 0.004 1.40
[ 3] HXDgethkInit 0.001 0.000 0.001 0.35
[ 4] HXDfbstTimeFITS 0.042 0.034 0.076 26.57
[ 5] HXDfbstTime 0.141 0.006 0.147 51.40
[ 6] HXD2ndbstFitsWrite 0.018 0.004 0.022 7.69
(others) 0.011 0.009 0.020 6.99
--------------------------------------------------------------------------
TOTAL 0.228 0.058 0.286 100.00
-> hxdbsttime successful for ae802022010hxd_2_bst01.sff.read_iomode,s,h,"create",,,"HXD bst fits input I/O mode : overwrite or create ?" input_name,fr,a,"ae802022010hxd_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,"ae802022010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae802022010.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 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae802022010hxd_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 4 576 512 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 32 512 SINGLE
HXDfbstTime:HXD_SYS_TIME 8 8 32 0 SINGLE
HXDfbstTime:HXD_HK_TIME 8 8 32 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 0.013 0.000 0.013 4.41
[ 2] HXDleapsecInit 0.004 0.000 0.004 1.36
[ 3] HXDgethkInit 0.001 0.000 0.001 0.34
[ 4] HXDfbstTimeFITS 0.036 0.041 0.077 26.10
[ 5] HXDfbstTime 0.154 0.004 0.158 53.56
[ 6] HXD2ndbstFitsWrite 0.019 0.003 0.022 7.46
(others) 0.010 0.010 0.020 6.78
--------------------------------------------------------------------------
TOTAL 0.237 0.058 0.295 100.00
-> hxdbsttime successful for ae802022010hxd_2_bst02.sff.read_iomode,s,h,"create",,,"HXD bst fits input I/O mode : overwrite or create ?" input_name,fr,a,"ae802022010hxd_2_bst03.fff",,,"HXD bst fits file name ?" create_name,f,a,"hxdbsstime_out.evt",,,"HXD bst fits created file name ?" hklist_name,f,a,"ae802022010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae802022010.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 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae802022010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae802022010hxd_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 0.017 0.001 0.018 6.10
[ 2] HXDleapsecInit 0.004 0.002 0.006 2.03
[ 3] HXDgethkInit 0.001 0.000 0.001 0.34
[ 4] HXDfbstTimeFITS 0.040 0.037 0.077 26.10
[ 5] HXDfbstTime 0.149 0.004 0.153 51.86
[ 6] HXD2ndbstFitsWrite 0.016 0.004 0.020 6.78
(others) 0.014 0.006 0.020 6.78
--------------------------------------------------------------------------
TOTAL 0.241 0.054 0.295 100.00
-> hxdbsttime successful for ae802022010hxd_2_bst03.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 ae802022010xi1_1_3x3n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi1_1_3x3n069.fff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_1_3x3n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_1_3x3n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae802022010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 839663 events )
... 10% ( 83966 / 839663 events )
Event... 100001 (100000)
... 20% ( 167932 / 839663 events )
Event... 200001 (200000)
... 30% ( 251898 / 839663 events )
Event... 300001 (300000)
... 40% ( 335864 / 839663 events )
Event... 400001 (400000)
... 50% ( 419830 / 839663 events )
Event... 500001 (500000)
... 60% ( 503796 / 839663 events )
... 70% ( 587762 / 839663 events )
Event... 600001 (600000)
... 80% ( 671728 / 839663 events )
Event... 700001 (700000)
... 90% ( 755694 / 839663 events )
Event... 800001 (800000)
... 100% ( 839663 / 839663 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 250321654.695981 / time start
TSTOP = 250394958.688758 / time stop
TELAPASE = 73303.992777 / elapsed time = TSTOP - TSTART
ONTIME = 63015.993584 / on time = sum of all GTIs
LIVETIME = 63015.993584 / on-source time corrected for CCD exposure
EXPOSURE = 63015.993584 / exposure time
xisEventFitsUtil: rename ./fileyIAVdR-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 839665
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 839664/839665
[ 2] XISreadExp version 1.6
| OK: 839664/839664
[ 3] XISreadEvent version 2.7
| OK: 839663/839664 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 839663/839663
[ 5] XISeditEventFits version 2.1
| OK: 839663/839663
GET: 839663
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
839664 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
839664 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
839664 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
839663 : XIStime:ENTRY
839663 : XIStime:OK
1 : XISeditEventFits:BEGIN
839663 : XISeditEventFits:ENTRY
839663 : 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 16 16 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 839663 839663 SINGLE
XIS:RAWX 4 4 839663 839663 SINGLE
XIS:RAWY 4 4 839663 839663 SINGLE
XIS:ACTX 4 4 839663 839663 SINGLE
XIS:ACTY 4 4 839663 839663 SINGLE
XIS:DETX 4 4 839663 839663 SINGLE
XIS:DETY 4 4 839663 839663 SINGLE
XIS:FOCX 4 4 839663 839663 SINGLE
XIS:FOCY 4 4 839663 839663 SINGLE
XIS:X 4 4 839663 839663 SINGLE
XIS:Y 4 4 839663 839663 SINGLE
XIS:STATUS 4 4 839663 839663 SINGLE
XIS:PHAS 36 36 839663 839663 SINGLE
XIS:PHANOCTI 4 4 839663 839663 SINGLE
XIS:PHA 4 4 839663 839663 SINGLE
XIS:PI 4 4 839663 839663 SINGLE
XIS:GRADE 4 4 839663 839663 SINGLE
XIS:P_OUTER_MOST 4 4 839663 839663 SINGLE
XIS:SUM_OUTER_MOST 4 4 839663 839663 SINGLE
XIS:AEDATE 4 4 1679326 839663 FAMILY
XIS:EXPTIME 4 4 839663 1679326 FAMILY
XIS:EXPTIME_AETIME 8 8 1679326 839663 SINGLE
XIS:S_TIME 8 8 839663 1679326 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 839663 1679326 FAMILY
XIS:EVENT_SEQ_NO 4 4 839663 839663 SINGLE
XIS:TIME 8 8 1679326 839663 SINGLE
XIS:EXP_CENT_AETIME 8 8 1679326 839663 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 839665 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 0.513 0.484 0.997 3.05
[ 2] XISreadExp 0.222 0.451 0.673 2.06
[ 3] XISreadEvent 14.209 1.078 15.287 46.80
[ 4] XIStime 1.560 0.486 2.046 6.26
[ 5] XISeditEventFits 12.484 1.162 13.646 41.77
(others) 0.009 0.009 0.018 0.06
--------------------------------------------------------------------------
TOTAL 28.997 3.669 32.666 100.00
-> xistime successful on ae802022010xi1_1_3x3n069.sff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_1_3x3n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_1_3x3n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 = 190.68320 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 784.80 / 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 = 3.05550 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 816.87 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 839663 events )
... 10% ( 83966 / 839663 events )
Event... 100001 (100000)
... 20% ( 167932 / 839663 events )
Event... 200001 (200000)
... 30% ( 251898 / 839663 events )
Event... 300001 (300000)
... 40% ( 335864 / 839663 events )
Event... 400001 (400000)
... 50% ( 419830 / 839663 events )
Event... 500001 (500000)
... 60% ( 503796 / 839663 events )
... 70% ( 587762 / 839663 events )
Event... 600001 (600000)
... 80% ( 671728 / 839663 events )
Event... 700001 (700000)
... 90% ( 755694 / 839663 events )
Event... 800001 (800000)
... 100% ( 839663 / 839663 events )
xisEventFitsUtil: rename ./filelxyDQv-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 839665
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 839664/839665
[ 2] XISreadExp version 1.6
| OK: 839664/839664
[ 3] XISreadEvent version 2.7
| OK: 839663/839664 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 839663/839663
[ 5] XISeditEventFits version 2.1
| OK: 839663/839663
GET: 839663
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
839664 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
839664 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
839664 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
839663 : XIScoord:ENTRY
839663 : XIScoord:OK
1 : XISeditEventFits:BEGIN
839663 : XISeditEventFits:ENTRY
839663 : 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 16 16 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 839663 1679326 SINGLE
XIS:RAWX 4 4 839663 1679326 SINGLE
XIS:RAWY 4 4 839663 1679326 SINGLE
XIS:ACTX 4 4 1679326 839663 SINGLE
XIS:ACTY 4 4 1679326 839663 SINGLE
XIS:DETX 4 4 1679326 839663 SINGLE
XIS:DETY 4 4 1679326 839663 SINGLE
XIS:FOCX 4 4 1679326 839663 SINGLE
XIS:FOCY 4 4 1679326 839663 SINGLE
XIS:X 4 4 1679326 839663 SINGLE
XIS:Y 4 4 1679326 839663 SINGLE
XIS:STATUS 4 4 839663 839663 SINGLE
XIS:PHAS 36 36 839663 839663 SINGLE
XIS:PHANOCTI 4 4 839663 839663 SINGLE
XIS:PHA 4 4 839663 839663 SINGLE
XIS:PI 4 4 839663 839663 SINGLE
XIS:GRADE 4 4 839663 839663 SINGLE
XIS:P_OUTER_MOST 4 4 839663 839663 SINGLE
XIS:SUM_OUTER_MOST 4 4 839663 839663 SINGLE
XIS:AEDATE 4 4 839663 839663 FAMILY
XIS:EXPTIME 4 4 839663 839663 FAMILY
XIS:EXPTIME_AETIME 8 8 839663 839663 SINGLE
XIS:S_TIME 8 8 839663 839663 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 839663 839663 FAMILY
XIS:EVENT_SEQ_NO 4 4 839663 839663 SINGLE
XIS:TIME 8 8 839663 1679326 SINGLE
XIS:EXP_CENT_AETIME 8 8 839663 839663 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 839665 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 0.666 0.424 1.090 2.90
[ 2] XISreadExp 0.266 0.439 0.705 1.88
[ 3] XISreadEvent 14.282 0.727 15.009 39.99
[ 4] XIScoord 5.829 0.583 6.412 17.09
[ 5] XISeditEventFits 12.967 1.319 14.286 38.07
(others) 0.020 0.006 0.026 0.07
--------------------------------------------------------------------------
TOTAL 34.030 3.497 37.527 100.00
-> xiscoord successful on ae802022010xi1_1_3x3n069.sff.infile,f,a,"ae802022010xi1_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 ae802022010xi1_1_3x3n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_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 / 839663 events )
... 10% ( 83966 / 839663 events )
Event... 100001 (100000)
... 20% ( 167932 / 839663 events )
Event... 200001 (200000)
... 30% ( 251898 / 839663 events )
Event... 300001 (300000)
... 40% ( 335864 / 839663 events )
Event... 400001 (400000)
... 50% ( 419830 / 839663 events )
Event... 500001 (500000)
... 60% ( 503796 / 839663 events )
... 70% ( 587762 / 839663 events )
Event... 600001 (600000)
... 80% ( 671728 / 839663 events )
Event... 700001 (700000)
... 90% ( 755694 / 839663 events )
Event... 800001 (800000)
... 100% ( 839663 / 839663 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 9093 1.08
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 27262 3.25
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 4276 0.51
B8 256 1PIX_FROM_SEGBOUNDARY 3350 0.40
B9 512 SCI_3rd_TRAILING_ROW 12731 1.52
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 30287 3.61
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 10994 1.31
B16 65536 CALMASK 80763 9.62
B17 131072 SEGBOUNDARY 8789 1.05
B18 262144 SCI_2nd_TRAILING_ROW 21028 2.50
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 103011 12.27
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 16465 1.96
B29 536870912 SCI_TRAILING_ROW 95143 11.33
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 95 0.01
### 0 CLEAN_ZERO 516701 61.54
--------------------------------------------------------------
+++ 4294967295 SUM 939988 111.95
::: 524287 SAFE(B0-18) 664830 79.18
>>> 4294967295 TOTAL 839663 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileZgNGnW-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 839665
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 839664/839665
[ 2] XISreadExp version 1.6
| OK: 839664/839664
[ 3] XISreadEvent version 2.7
| OK: 839663/839664 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 839663/839663
[ 5] XISeditEventFits version 2.1
| OK: 839663/839663
GET: 839663
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
839664 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
839664 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
839664 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
839663 : XISputPixelQuality:ENTRY
839663 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
839663 : XISeditEventFits:ENTRY
839663 : 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 16 16 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 839663 839663 SINGLE
XIS:RAWX 4 4 839663 839663 SINGLE
XIS:RAWY 4 4 839663 1679326 SINGLE
XIS:ACTX 4 4 839663 1679326 SINGLE
XIS:ACTY 4 4 839663 1679326 SINGLE
XIS:DETX 4 4 839663 839663 SINGLE
XIS:DETY 4 4 839663 839663 SINGLE
XIS:FOCX 4 4 839663 839663 SINGLE
XIS:FOCY 4 4 839663 839663 SINGLE
XIS:X 4 4 839663 839663 SINGLE
XIS:Y 4 4 839663 839663 SINGLE
XIS:STATUS 4 4 1679326 839663 SINGLE
XIS:PHAS 36 36 839663 839663 SINGLE
XIS:PHANOCTI 4 4 839663 839663 SINGLE
XIS:PHA 4 4 839663 839663 SINGLE
XIS:PI 4 4 839663 839663 SINGLE
XIS:GRADE 4 4 839663 839663 SINGLE
XIS:P_OUTER_MOST 4 4 839663 839663 SINGLE
XIS:SUM_OUTER_MOST 4 4 839663 839663 SINGLE
XIS:AEDATE 4 4 839663 839663 FAMILY
XIS:EXPTIME 4 4 839663 839663 FAMILY
XIS:EXPTIME_AETIME 8 8 839663 839663 SINGLE
XIS:S_TIME 8 8 839663 839663 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 839663 839663 FAMILY
XIS:EVENT_SEQ_NO 4 4 839663 839663 SINGLE
XIS:TIME 8 8 839663 1679326 SINGLE
XIS:EXP_CENT_AETIME 8 8 839663 839663 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 839665 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 0.614 0.495 1.109 3.47
[ 2] XISreadExp 0.200 0.510 0.710 2.22
[ 3] XISreadEvent 13.999 0.647 14.646 45.77
[ 4] XISputPixelQuality 1.062 0.516 1.578 4.93
[ 5] XISeditEventFits 12.482 1.458 13.940 43.56
(others) 0.010 0.008 0.018 0.06
--------------------------------------------------------------------------
TOTAL 28.367 3.633 32.000 100.00
-> xisputpixelquality successful on ae802022010xi1_1_3x3n069.sff.infile,f,a,"ae802022010xi1_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,"ae802022010xi1_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 ae802022010xi1_1_3x3n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_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 30-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 68-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 'ae802022010xi1_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 ae802022010xi1_0.hk, S1_VDCHK18_CAL, nrows=4933
nvalid=4720 nrej=213 time=250319109.2 - 250478091.2 [s]
AE-temp: average=22.665 sigma=1.668 min=18.287 max=26.293 [degC]
Event... 1 (0)
... 0% ( 0 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 10% ( 83966 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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... 20% ( 167932 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
... 30% ( 251898 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 40% ( 335864 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 400001 (400000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 50% ( 419830 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 500001 (500000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 60% ( 503796 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 70% ( 587762 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 600001 (600000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 80% ( 671728 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 700001 (700000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 90% ( 755694 / 839663 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 800001 (800000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 100% ( 839663 / 839663 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileMiFyJB-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 839665
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 839664/839665
[ 2] XISreadExp version 1.6
| OK: 839664/839664
[ 3] XISreadEvent version 2.7
| OK: 839663/839664 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 839663/839663
[ 5] XIStrailCorrection version 3.1
| OK: 839663/839663
[ 6] XISctiCorrection version 3.4
| OK: 839663/839663
[ 7] XISgrade version 3.3
| OK: 839663/839663
[ 8] XISpha2pi version 3.2
| OK: 839663/839663
[ 9] XISeditEventFits version 2.1
| OK: 839663/839663
GET: 839663
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
839664 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
839664 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
839664 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
839663 : XISpreparePHASCORR:ENTRY
839663 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
839663 : XIStrailCorrection:ENTRY
839663 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
839663 : XISctiCorrection:ENTRY
839663 : XISctiCorrection:OK
1 : XISgrade:BEGIN
839663 : XISgrade:ENTRY
839663 : XISgrade:OK
1 : XISpha2pi:BEGIN
839663 : XISpha2pi:ENTRY
839663 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
839663 : XISeditEventFits:ENTRY
839663 : 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 3358658 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 16 16 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 839663 4198315 SINGLE
XIS:RAWX 4 4 839663 2518989 SINGLE
XIS:RAWY 4 4 839663 1679326 SINGLE
XIS:ACTX 4 4 839663 839663 SINGLE
XIS:ACTY 4 4 839663 2518989 SINGLE
XIS:DETX 4 4 839663 839663 SINGLE
XIS:DETY 4 4 839663 839663 SINGLE
XIS:FOCX 4 4 839663 839663 SINGLE
XIS:FOCY 4 4 839663 839663 SINGLE
XIS:X 4 4 839663 839663 SINGLE
XIS:Y 4 4 839663 839663 SINGLE
XIS:STATUS 4 4 839663 839663 SINGLE
XIS:PHAS 36 36 839663 1679326 SINGLE
XIS:PHANOCTI 4 4 1679326 839663 SINGLE
XIS:PHA 4 4 1679326 839663 SINGLE
XIS:PI 4 4 1679326 839663 SINGLE
XIS:GRADE 4 4 1679326 839663 SINGLE
XIS:P_OUTER_MOST 4 4 839663 1679326 SINGLE
XIS:SUM_OUTER_MOST 4 4 839663 1679326 SINGLE
XIS:AEDATE 4 4 839663 839663 FAMILY
XIS:EXPTIME 4 4 839663 839663 FAMILY
XIS:EXPTIME_AETIME 8 8 839663 839663 SINGLE
XIS:S_TIME 8 8 839663 839663 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 839663 839663 FAMILY
XIS:EVENT_SEQ_NO 4 4 839663 839663 SINGLE
XIS:TIME 8 8 839663 4198315 SINGLE
XIS:EXP_CENT_AETIME 8 8 839663 839663 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 839665 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 1679326 839663 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 839663 839663 SINGLE
XIS:PHASCORR 72 72 2518989 2518989 SINGLE
XIS:PHA:DOUBLE 8 8 839663 839663 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 0.737 0.432 1.169 1.62
[ 2] XISreadExp 0.219 0.444 0.663 0.92
[ 3] XISreadEvent 14.458 0.888 15.346 21.30
[ 4] XISpreparePHASCORR 0.721 0.475 1.196 1.66
[ 5] XIStrailCorrection 1.712 0.487 2.199 3.05
[ 6] XISctiCorrection 22.436 8.573 31.008 43.04
[ 7] XISgrade 2.808 0.466 3.273 4.54
[ 8] XISpha2pi 1.866 0.471 2.337 3.24
[ 9] XISeditEventFits 13.451 1.371 14.822 20.57
(others) 0.020 0.008 0.028 0.04
--------------------------------------------------------------------------
TOTAL 58.426 13.614 72.040 100.00
-> xispi successful on ae802022010xi1_1_3x3n069.sff.infile,f,a,"ae802022010xi1_1_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"ae802022010xi1_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 ae802022010xi1_1_3x3n069.sff
OUTFILE ae802022010xi1_1_3x3n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae802022010xi1_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 / 839663 events )
frame time jump, t=250323742.696 - 250325150.696 by 1408.000 s
saturated frame, t=250325150.696 - 250325158.696 39739 (770/40509) seg=1111
saturated frame, t=250325158.696 - 250325166.696 35579 (743/36322) seg=1111
frame time jump, t=250325166.696 - 250325214.696 by 48.000 s
saturated frame, t=250325214.696 - 250325222.696 26941 (743/27684) seg=1111
saturated frame, t=250325222.696 - 250325230.696 34948 (1113/36061) seg=1111
saturated frame, t=250325230.696 - 250325238.696 34019 (1114/35133) seg=1111
saturated frame, t=250325238.696 - 250325246.696 33933 (1112/35045) seg=1111
saturated frame, t=250325246.696 - 250325254.696 33407 (1111/34518) seg=1111
saturated frame, t=250325254.696 - 250325262.696 33734 (1113/34847) seg=1111
saturated frame, t=250325262.696 - 250325270.696 33859 (1114/34973) seg=1111
saturated frame, t=250325270.696 - 250325278.696 33219 (1113/34332) seg=1111
saturated frame, t=250325278.696 - 250325286.696 33281 (1114/34395) seg=1111
frame time jump, t=250325286.696 - 250325550.696 by 264.000 s
frame time jump, t=250329862.695 - 250331118.695 by 1256.000 s
saturated frame, t=250331118.695 - 250331126.695 39757 (748/40505) seg=1111
saturated frame, t=250331126.695 - 250331134.695 35806 (743/36549) seg=1111
frame time jump, t=250331134.695 - 250331182.695 by 48.000 s
saturated frame, t=250331182.695 - 250331190.695 26987 (743/27730) seg=1111
saturated frame, t=250331190.695 - 250331198.695 25227 (1114/26341) seg=1111
saturated frame, t=250331198.695 - 250331206.695 21538 (1113/22651) seg=1111
saturated frame, t=250331206.695 - 250331214.695 21923 (1114/23037) seg=1111
saturated frame, t=250331214.695 - 250331222.695 22397 (1114/23511) seg=1111
saturated frame, t=250331222.695 - 250331230.695 21341 (1114/22455) seg=1111
saturated frame, t=250331230.695 - 250331238.695 21708 (1111/22819) seg=1111
saturated frame, t=250331238.695 - 250331246.695 23264 (1111/24375) seg=1111
... 10% ( 83966 / 839663 events )
saturated frame, t=250331246.695 - 250331254.695 22083 (1109/23192) seg=1111
saturated frame, t=250331254.695 - 250331262.695 20433 (1114/21547) seg=1111
frame time jump, t=250331262.695 - 250331526.695 by 264.000 s
saturated frame, t=250332990.695 - 250332998.695 224 (1107/1331) seg=1111
frame time jump, t=250335974.695 - 250337102.695 by 1128.000 s
saturated frame, t=250337102.695 - 250337110.695 39782 (749/40531) seg=1111
saturated frame, t=250337110.695 - 250337118.695 35734 (743/36477) seg=1111
frame time jump, t=250337118.695 - 250337174.695 by 56.000 s
saturated frame, t=250337174.695 - 250337182.695 26978 (743/27721) seg=1111
saturated frame, t=250337182.695 - 250337190.695 2658 (1112/3770) seg=1111
saturated frame, t=250337190.695 - 250337198.695 1123 (1112/2235) seg=1111
saturated frame, t=250337198.695 - 250337206.695 984 (1111/2095) seg=1111
saturated frame, t=250337206.695 - 250337214.695 992 (1112/2104) seg=1111
saturated frame, t=250337214.695 - 250337222.695 831 (1111/1942) seg=1111
saturated frame, t=250337222.695 - 250337230.695 776 (1111/1887) seg=1111
saturated frame, t=250337230.695 - 250337238.695 610 (1110/1720) seg=1111
saturated frame, t=250337238.695 - 250337246.695 462 (1111/1573) seg=1111
frame time jump, t=250337246.695 - 250337510.694 by 264.000 s
saturated frame, t=250338742.694 - 250338750.694 410 (1113/1523) seg=1111
... 20% ( 167932 / 839663 events )
frame time jump, t=250342118.694 - 250342910.694 by 792.000 s
saturated frame, t=250342910.694 - 250342918.694 40220 (770/40990) seg=1111
saturated frame, t=250342918.694 - 250342926.694 35682 (743/36425) seg=1111
frame time jump, t=250342926.694 - 250342974.694 by 48.000 s
saturated frame, t=250342974.694 - 250342982.694 26892 (743/27635) seg=1111
frame time jump, t=250343046.694 - 250343310.694 by 264.000 s
... 30% ( 251898 / 839663 events )
... 40% ( 335864 / 839663 events )
... 50% ( 419830 / 839663 events )
... 60% ( 503796 / 839663 events )
... 70% ( 587762 / 839663 events )
frame time jump, t=250380086.690 - 250380950.690 by 864.000 s
saturated frame, t=250380950.690 - 250380958.690 41975 (757/42732) seg=1111
... 80% ( 671728 / 839663 events )
saturated frame, t=250380958.690 - 250380966.690 35470 (743/36213) seg=1111
frame time jump, t=250380966.690 - 250381014.690 by 48.000 s
saturated frame, t=250381014.690 - 250381022.690 26828 (743/27571) seg=1111
saturated frame, t=250381022.690 - 250381030.690 310 (1101/1411) seg=1111
frame time jump, t=250381094.690 - 250381358.690 by 264.000 s
saturated frame, t=250381358.690 - 250381366.690 243 (1114/1357) seg=1111
saturated frame, t=250384766.689 - 250384774.689 406 (1113/1519) seg=1111
frame time jump, t=250385846.689 - 250387086.690 by 1240.000 s
saturated frame, t=250387086.690 - 250387094.690 40923 (787/41710) seg=1111
saturated frame, t=250387094.690 - 250387102.690 35469 (743/36212) seg=1111
frame time jump, t=250387102.690 - 250387150.690 by 48.000 s
saturated frame, t=250387150.690 - 250387158.690 26560 (743/27303) seg=1111
saturated frame, t=250387158.690 - 250387166.690 1269 (1100/2369) seg=1111
saturated frame, t=250387166.690 - 250387174.690 537 (1091/1628) seg=1111
saturated frame, t=250387174.690 - 250387182.690 283 (1095/1378) seg=1111
saturated frame, t=250387182.690 - 250387190.690 313 (1094/1407) seg=1111
saturated frame, t=250387190.690 - 250387198.690 308 (1092/1400) seg=1111
... 90% ( 755694 / 839663 events )
saturated frame, t=250387198.690 - 250387206.690 248 (1092/1340) seg=1111
saturated frame, t=250387206.690 - 250387214.690 343 (1095/1438) seg=1111
saturated frame, t=250387214.690 - 250387222.690 337 (1085/1422) seg=1111
frame time jump, t=250387222.690 - 250387486.690 by 264.000 s
frame time jump, t=250391782.689 - 250393190.689 by 1408.000 s
saturated frame, t=250393190.689 - 250393198.689 40335 (750/41085) seg=1111
saturated frame, t=250393198.689 - 250393206.689 35524 (743/36267) seg=1111
frame time jump, t=250393206.689 - 250393254.689 by 48.000 s
saturated frame, t=250393254.689 - 250393262.689 26750 (743/27493) seg=1111
saturated frame, t=250393262.689 - 250393270.689 24157 (1107/25264) seg=1111
saturated frame, t=250393270.689 - 250393278.689 24058 (1104/25162) seg=1111
saturated frame, t=250393278.689 - 250393286.689 24070 (1106/25176) seg=1111
saturated frame, t=250393286.689 - 250393294.689 24214 (1101/25315) seg=1111
saturated frame, t=250393294.689 - 250393302.689 23974 (1106/25080) seg=1111
saturated frame, t=250393302.689 - 250393310.689 24131 (1108/25239) seg=1111
saturated frame, t=250393310.689 - 250393318.689 23975 (1103/25078) seg=1111
saturated frame, t=250393318.689 - 250393326.689 24074 (1105/25179) seg=1111
saturated frame, t=250393326.689 - 250393334.689 24380 (1096/25476) seg=1111
frame time jump, t=250393334.689 - 250393598.689 by 264.000 s
... 100% ( 839663 / 839663 events )
XIScheckEventNo: GTI file 'ae802022010xi1_1_3x3n069.gti' created
N_FRAMES = 7920 / number of frames in the input event file
N_TESTED = 7877 / number of non-zero frames tested
N_PASSED = 7809 / number of frames passed the test
N_T_JUMP = 21 / number of frames detected time jump
N_SATURA = 68 / number of frames telemetry saturated
T_TESTED = 63016.000000 / exposure of non-zero frames tested
T_PASSED = 62472.000000 / exposure of frames passed the test
T_T_JUMP = 10287.999193 / loss of exposure due to time jump
T_SATURA = 544.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7921
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 7920/7921
[ 2] XISreadExp version 1.6
| OK: 7920/7920
[ 3] XISreadEvent version 2.7 <------- LOOP: 839663
| OK: 839663/847583 -------> SKIP: 7920
[ 4] XIScheckEventNo version 1.2
| OK: 839663/839663
GET: 839663
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
7920 : XISreadFrame:ENTRY
7920 : XISreadFrame:OK
1 : XISreadExp:BEGIN
7920 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
847583 : XISreadEvent:ENTRY
847582 : XISreadEvent:OK
7877 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
839663 : XIScheckEventNo:ENTRY
839663 : 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 16 16 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 7920 847583 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 7920 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 7920 847583 SINGLE
XIS:FRAMES:S_TIME 8 8 7920 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 7920 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 7920 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 7920 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 7920 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 7920 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 7920 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 7920 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 7920 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 7920 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 7920 7877 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 7920 0 SINGLE
XIS:FRAMES:BIAS 16 16 7920 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 7920 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 7920 0 SINGLE
XIS:FRAMES:AEDATE 4 4 7920 847583 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 7920 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 7920 839663 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 7920 7877 SINGLE
XIS:FRAMES:TIME 8 8 7920 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 839663 839663 SINGLE
XIS:RAWX 4 4 839663 0 SINGLE
XIS:RAWY 4 4 839663 0 SINGLE
XIS:ACTX 4 4 839663 0 SINGLE
XIS:ACTY 4 4 839663 0 SINGLE
XIS:DETX 4 4 839663 0 SINGLE
XIS:DETY 4 4 839663 0 SINGLE
XIS:FOCX 4 4 839663 0 SINGLE
XIS:FOCY 4 4 839663 0 SINGLE
XIS:X 4 4 839663 0 SINGLE
XIS:Y 4 4 839663 0 SINGLE
XIS:STATUS 4 4 839663 0 SINGLE
XIS:PHAS 36 36 839663 0 SINGLE
XIS:PHANOCTI 4 4 839663 0 SINGLE
XIS:PHA 4 4 839663 0 SINGLE
XIS:PI 4 4 839663 0 SINGLE
XIS:GRADE 4 4 839663 0 SINGLE
XIS:P_OUTER_MOST 4 4 839663 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 839663 0 SINGLE
XIS:AEDATE 4 4 839663 847582 FAMILY
XIS:EXPTIME 4 4 839663 847582 FAMILY
XIS:EXPTIME_AETIME 8 8 839663 0 SINGLE
XIS:S_TIME 8 8 839663 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 839663 847582 FAMILY
XIS:EVENT_SEQ_NO 4 4 839663 847582 SINGLE
XIS:TIME 8 8 839663 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 839663 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 1.912 0.021 1.933 9.69
[ 2] XISreadExp 0.004 0.005 0.009 0.05
[ 3] XISreadEvent 16.594 0.571 17.165 86.02
[ 4] XIScheckEventNo 0.345 0.480 0.825 4.13
(others) 0.014 0.009 0.023 0.12
--------------------------------------------------------------------------
TOTAL 18.869 1.086 19.955 100.00
-> xisgtigen successful on ae802022010xi1_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 ae802022010xi1_1_5x5n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi1_1_5x5n069.fff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_1_5x5n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_1_5x5n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae802022010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 152622 events )
... 10% ( 15262 / 152622 events )
... 20% ( 30524 / 152622 events )
... 30% ( 45786 / 152622 events )
... 40% ( 61048 / 152622 events )
... 50% ( 76310 / 152622 events )
... 60% ( 91572 / 152622 events )
Event... 100001 (100000)
... 70% ( 106834 / 152622 events )
... 80% ( 122096 / 152622 events )
... 90% ( 137358 / 152622 events )
... 100% ( 152622 / 152622 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 250319126.696575 / time start
TSTOP = 250406742.687727 / time stop
TELAPASE = 87615.991152 / elapsed time = TSTOP - TSTART
ONTIME = 10287.998577 / on time = sum of all GTIs
LIVETIME = 10287.998577 / on-source time corrected for CCD exposure
EXPOSURE = 10287.998577 / exposure time
xisEventFitsUtil: rename ./fileKmD1b5-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 152624
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 152623/152624
[ 2] XISreadExp version 1.6
| OK: 152623/152623
[ 3] XISreadEvent version 2.7
| OK: 152622/152623 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 152622/152622
[ 5] XISeditEventFits version 2.1
| OK: 152622/152622
GET: 152622
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
152623 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
152623 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
152623 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
152622 : XIStime:ENTRY
152622 : XIStime:OK
1 : XISeditEventFits:BEGIN
152622 : XISeditEventFits:ENTRY
152622 : 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 16 16 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 152622 152622 SINGLE
XIS:RAWX 4 4 152622 152622 SINGLE
XIS:RAWY 4 4 152622 152622 SINGLE
XIS:ACTX 4 4 152622 152622 SINGLE
XIS:ACTY 4 4 152622 152622 SINGLE
XIS:DETX 4 4 152622 152622 SINGLE
XIS:DETY 4 4 152622 152622 SINGLE
XIS:FOCX 4 4 152622 152622 SINGLE
XIS:FOCY 4 4 152622 152622 SINGLE
XIS:X 4 4 152622 152622 SINGLE
XIS:Y 4 4 152622 152622 SINGLE
XIS:STATUS 4 4 152622 152622 SINGLE
XIS:PHAS 100 100 152622 152622 SINGLE
XIS:PHANOCTI 4 4 152622 152622 SINGLE
XIS:PHA 4 4 152622 152622 SINGLE
XIS:PI 4 4 152622 152622 SINGLE
XIS:GRADE 4 4 152622 152622 SINGLE
XIS:AEDATE 4 4 305244 152622 FAMILY
XIS:EXPTIME 4 4 152622 305244 FAMILY
XIS:EXPTIME_AETIME 8 8 305244 152622 SINGLE
XIS:S_TIME 8 8 152622 305244 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 152622 305244 FAMILY
XIS:EVENT_SEQ_NO 4 4 152622 152622 SINGLE
XIS:TIME 8 8 305244 152622 SINGLE
XIS:EXP_CENT_AETIME 8 8 305244 152622 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 152624 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 0.118 0.091 0.209 3.53
[ 2] XISreadExp 0.049 0.072 0.121 2.04
[ 3] XISreadEvent 2.508 0.238 2.746 46.41
[ 4] XIStime 0.387 0.092 0.479 8.10
[ 5] XISeditEventFits 2.131 0.215 2.346 39.65
(others) 0.006 0.010 0.016 0.27
--------------------------------------------------------------------------
TOTAL 5.198 0.718 5.916 100.00
-> xistime successful on ae802022010xi1_1_5x5n069.sff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_1_5x5n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_1_5x5n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 = 190.68320 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 784.80 / 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 = 3.05550 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 816.87 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 152622 events )
... 10% ( 15262 / 152622 events )
... 20% ( 30524 / 152622 events )
... 30% ( 45786 / 152622 events )
... 40% ( 61048 / 152622 events )
... 50% ( 76310 / 152622 events )
... 60% ( 91572 / 152622 events )
Event... 100001 (100000)
... 70% ( 106834 / 152622 events )
... 80% ( 122096 / 152622 events )
... 90% ( 137358 / 152622 events )
... 100% ( 152622 / 152622 events )
xisEventFitsUtil: rename ./fileX9rsOL-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 152624
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 152623/152624
[ 2] XISreadExp version 1.6
| OK: 152623/152623
[ 3] XISreadEvent version 2.7
| OK: 152622/152623 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 152622/152622
[ 5] XISeditEventFits version 2.1
| OK: 152622/152622
GET: 152622
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
152623 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
152623 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
152623 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
152622 : XIScoord:ENTRY
152622 : XIScoord:OK
1 : XISeditEventFits:BEGIN
152622 : XISeditEventFits:ENTRY
152622 : 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 16 16 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 152622 305244 SINGLE
XIS:RAWX 4 4 152622 305244 SINGLE
XIS:RAWY 4 4 152622 305244 SINGLE
XIS:ACTX 4 4 305244 152622 SINGLE
XIS:ACTY 4 4 305244 152622 SINGLE
XIS:DETX 4 4 305244 152622 SINGLE
XIS:DETY 4 4 305244 152622 SINGLE
XIS:FOCX 4 4 305244 152622 SINGLE
XIS:FOCY 4 4 305244 152622 SINGLE
XIS:X 4 4 305244 152622 SINGLE
XIS:Y 4 4 305244 152622 SINGLE
XIS:STATUS 4 4 152622 152622 SINGLE
XIS:PHAS 100 100 152622 152622 SINGLE
XIS:PHANOCTI 4 4 152622 152622 SINGLE
XIS:PHA 4 4 152622 152622 SINGLE
XIS:PI 4 4 152622 152622 SINGLE
XIS:GRADE 4 4 152622 152622 SINGLE
XIS:AEDATE 4 4 152622 152622 FAMILY
XIS:EXPTIME 4 4 152622 152622 FAMILY
XIS:EXPTIME_AETIME 8 8 152622 152622 SINGLE
XIS:S_TIME 8 8 152622 152622 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 152622 152622 FAMILY
XIS:EVENT_SEQ_NO 4 4 152622 152622 SINGLE
XIS:TIME 8 8 152622 305244 SINGLE
XIS:EXP_CENT_AETIME 8 8 152622 152622 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 152624 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 0.124 0.081 0.205 2.91
[ 2] XISreadExp 0.038 0.082 0.120 1.70
[ 3] XISreadEvent 2.433 0.255 2.688 38.18
[ 4] XIScoord 1.080 0.167 1.247 17.71
[ 5] XISeditEventFits 2.381 0.376 2.757 39.16
(others) 0.015 0.008 0.023 0.33
--------------------------------------------------------------------------
TOTAL 6.070 0.969 7.039 100.00
-> xiscoord successful on ae802022010xi1_1_5x5n069.sff.infile,f,a,"ae802022010xi1_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 ae802022010xi1_1_5x5n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_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 / 152622 events )
... 10% ( 15262 / 152622 events )
... 20% ( 30524 / 152622 events )
... 30% ( 45786 / 152622 events )
... 40% ( 61048 / 152622 events )
... 50% ( 76310 / 152622 events )
... 60% ( 91572 / 152622 events )
Event... 100001 (100000)
... 70% ( 106834 / 152622 events )
... 80% ( 122096 / 152622 events )
... 90% ( 137358 / 152622 events )
... 100% ( 152622 / 152622 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 2064 1.35
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 4250 2.78
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 1362 0.89
B8 256 1PIX_FROM_SEGBOUNDARY 723 0.47
B9 512 SCI_3rd_TRAILING_ROW 2536 1.66
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 6080 3.98
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 2008 1.32
B16 65536 CALMASK 10399 6.81
B17 131072 SEGBOUNDARY 1610 1.05
B18 262144 SCI_2nd_TRAILING_ROW 3902 2.56
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 15752 10.32
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 3015 1.98
B29 536870912 SCI_TRAILING_ROW 11529 7.55
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 146 0.10
### 0 CLEAN_ZERO 102752 67.32
--------------------------------------------------------------
+++ 4294967295 SUM 168128 110.16
::: 524287 SAFE(B0-18) 127145 83.31
>>> 4294967295 TOTAL 152622 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileqVjV2e-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 152624
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 152623/152624
[ 2] XISreadExp version 1.6
| OK: 152623/152623
[ 3] XISreadEvent version 2.7
| OK: 152622/152623 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 152622/152622
[ 5] XISeditEventFits version 2.1
| OK: 152622/152622
GET: 152622
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
152623 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
152623 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
152623 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
152622 : XISputPixelQuality:ENTRY
152622 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
152622 : XISeditEventFits:ENTRY
152622 : 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 16 16 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 152622 152622 SINGLE
XIS:RAWX 4 4 152622 152622 SINGLE
XIS:RAWY 4 4 152622 305244 SINGLE
XIS:ACTX 4 4 152622 305244 SINGLE
XIS:ACTY 4 4 152622 305244 SINGLE
XIS:DETX 4 4 152622 152622 SINGLE
XIS:DETY 4 4 152622 152622 SINGLE
XIS:FOCX 4 4 152622 152622 SINGLE
XIS:FOCY 4 4 152622 152622 SINGLE
XIS:X 4 4 152622 152622 SINGLE
XIS:Y 4 4 152622 152622 SINGLE
XIS:STATUS 4 4 305244 152622 SINGLE
XIS:PHAS 100 100 152622 152622 SINGLE
XIS:PHANOCTI 4 4 152622 152622 SINGLE
XIS:PHA 4 4 152622 152622 SINGLE
XIS:PI 4 4 152622 152622 SINGLE
XIS:GRADE 4 4 152622 152622 SINGLE
XIS:AEDATE 4 4 152622 152622 FAMILY
XIS:EXPTIME 4 4 152622 152622 FAMILY
XIS:EXPTIME_AETIME 8 8 152622 152622 SINGLE
XIS:S_TIME 8 8 152622 152622 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 152622 152622 FAMILY
XIS:EVENT_SEQ_NO 4 4 152622 152622 SINGLE
XIS:TIME 8 8 152622 305244 SINGLE
XIS:EXP_CENT_AETIME 8 8 152622 152622 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 152624 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 0.123 0.088 0.211 3.70
[ 2] XISreadExp 0.036 0.081 0.117 2.05
[ 3] XISreadEvent 2.397 0.091 2.488 43.63
[ 4] XISputPixelQuality 0.261 0.069 0.330 5.79
[ 5] XISeditEventFits 2.235 0.304 2.539 44.52
(others) 0.012 0.006 0.018 0.32
--------------------------------------------------------------------------
TOTAL 5.063 0.639 5.702 100.00
-> xisputpixelquality successful on ae802022010xi1_1_5x5n069.sff.infile,f,a,"ae802022010xi1_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,"ae802022010xi1_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 ae802022010xi1_1_5x5n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_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 30-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 68-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 'ae802022010xi1_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 ae802022010xi1_0.hk, S1_VDCHK18_CAL, nrows=4933
nvalid=4720 nrej=213 time=250319109.2 - 250478091.2 [s]
AE-temp: average=22.665 sigma=1.668 min=18.287 max=26.293 [degC]
Event... 1 (0)
... 0% ( 0 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 10% ( 15262 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 20% ( 30524 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 30% ( 45786 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 40% ( 61048 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 50% ( 76310 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 60% ( 91572 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 70% ( 106834 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 80% ( 122096 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 90% ( 137358 / 152622 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 100% ( 152622 / 152622 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filefdc6iP-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 152624
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 152623/152624
[ 2] XISreadExp version 1.6
| OK: 152623/152623
[ 3] XISreadEvent version 2.7
| OK: 152622/152623 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 152622/152622
[ 5] XIStrailCorrection version 3.1
| OK: 152622/152622
[ 6] XISctiCorrection version 3.4
| OK: 152622/152622
[ 7] XISgrade version 3.3
| OK: 152622/152622
[ 8] XISpha2pi version 3.2
| OK: 152622/152622
[ 9] XISeditEventFits version 2.1
| OK: 152622/152622
GET: 152622
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
152623 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
152623 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
152623 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
152622 : XISpreparePHASCORR:ENTRY
152622 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
152622 : XIStrailCorrection:ENTRY
152622 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
152622 : XISctiCorrection:ENTRY
152622 : XISctiCorrection:OK
1 : XISgrade:BEGIN
152622 : XISgrade:ENTRY
152622 : XISgrade:OK
1 : XISpha2pi:BEGIN
152622 : XISpha2pi:ENTRY
152622 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
152622 : XISeditEventFits:ENTRY
152622 : 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 610494 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 16 16 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 152622 763110 SINGLE
XIS:RAWX 4 4 152622 457866 SINGLE
XIS:RAWY 4 4 152622 305244 SINGLE
XIS:ACTX 4 4 152622 152622 SINGLE
XIS:ACTY 4 4 152622 457866 SINGLE
XIS:DETX 4 4 152622 152622 SINGLE
XIS:DETY 4 4 152622 152622 SINGLE
XIS:FOCX 4 4 152622 152622 SINGLE
XIS:FOCY 4 4 152622 152622 SINGLE
XIS:X 4 4 152622 152622 SINGLE
XIS:Y 4 4 152622 152622 SINGLE
XIS:STATUS 4 4 152622 152622 SINGLE
XIS:PHAS 100 100 152622 305244 SINGLE
XIS:PHANOCTI 4 4 305244 152622 SINGLE
XIS:PHA 4 4 305244 152622 SINGLE
XIS:PI 4 4 305244 152622 SINGLE
XIS:GRADE 4 4 305244 152622 SINGLE
XIS:AEDATE 4 4 152622 152622 FAMILY
XIS:EXPTIME 4 4 152622 152622 FAMILY
XIS:EXPTIME_AETIME 8 8 152622 152622 SINGLE
XIS:S_TIME 8 8 152622 152622 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 152622 152622 FAMILY
XIS:EVENT_SEQ_NO 4 4 152622 152622 SINGLE
XIS:TIME 8 8 152622 763110 SINGLE
XIS:EXP_CENT_AETIME 8 8 152622 152622 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 152624 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 305244 152622 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 152622 152622 SINGLE
XIS:PHASCORR 200 200 457866 457866 SINGLE
XIS:PHA:DOUBLE 8 8 152622 152622 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 0.137 0.074 0.211 1.40
[ 2] XISreadExp 0.048 0.084 0.132 0.87
[ 3] XISreadEvent 2.398 0.123 2.521 16.69
[ 4] XISpreparePHASCORR 0.152 0.070 0.222 1.47
[ 5] XIStrailCorrection 0.350 0.077 0.427 2.83
[ 6] XISctiCorrection 6.594 1.352 7.946 52.60
[ 7] XISgrade 0.503 0.081 0.584 3.87
[ 8] XISpha2pi 0.363 0.086 0.449 2.97
[ 9] XISeditEventFits 2.324 0.262 2.586 17.12
(others) 0.018 0.010 0.028 0.19
--------------------------------------------------------------------------
TOTAL 12.886 2.219 15.105 100.00
-> xispi successful on ae802022010xi1_1_5x5n069.sff.infile,f,a,"ae802022010xi1_1_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"ae802022010xi1_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 ae802022010xi1_1_5x5n069.sff
OUTFILE ae802022010xi1_1_5x5n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae802022010xi1_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 / 152622 events )
saturated frame, t=250319126.697 - 250319134.697 40782 (812/41594) seg=1111
saturated frame, t=250319134.697 - 250319142.697 37287 (808/38095) seg=1111
frame time jump, t=250319142.697 - 250319198.697 by 56.000 s
saturated frame, t=250319198.697 - 250319206.697 28679 (808/29487) seg=1111
saturated frame, t=250319206.697 - 250319214.697 34419 (1455/35874) seg=1111
saturated frame, t=250319214.697 - 250319222.697 33497 (1455/34952) seg=1111
saturated frame, t=250319222.697 - 250319230.697 33418 (1455/34873) seg=1111
saturated frame, t=250319230.697 - 250319238.697 34068 (1456/35524) seg=1111
saturated frame, t=250319238.697 - 250319246.697 34068 (1457/35525) seg=1111
saturated frame, t=250319246.697 - 250319254.697 33969 (1457/35426) seg=1111
saturated frame, t=250319254.697 - 250319262.697 33249 (1457/34706) seg=1111
saturated frame, t=250319262.697 - 250319270.697 33270 (1456/34726) seg=1111
frame time jump, t=250319270.697 - 250319534.696 by 264.000 s
... 10% ( 15262 / 152622 events )
... 20% ( 30524 / 152622 events )
frame time jump, t=250321654.696 - 250394958.689 by 73303.993 s
... 30% ( 45786 / 152622 events )
... 40% ( 61048 / 152622 events )
frame time jump, t=250397742.689 - 250399310.689 by 1568.000 s
saturated frame, t=250399310.689 - 250399318.689 40821 (831/41652) seg=1111
saturated frame, t=250399318.689 - 250399326.689 37246 (808/38054) seg=1111
frame time jump, t=250399326.689 - 250399374.689 by 48.000 s
saturated frame, t=250399374.689 - 250399382.689 28623 (808/29431) seg=1111
saturated frame, t=250399382.689 - 250399390.689 29623 (1454/31077) seg=1111
saturated frame, t=250399390.689 - 250399398.689 28606 (1452/30058) seg=1111
saturated frame, t=250399398.689 - 250399406.689 28333 (1453/29786) seg=1111
... 50% ( 76310 / 152622 events )
saturated frame, t=250399406.689 - 250399414.689 28240 (1453/29693) seg=1111
saturated frame, t=250399414.689 - 250399422.689 28867 (1455/30322) seg=1111
saturated frame, t=250399422.689 - 250399430.689 28775 (1453/30228) seg=1111
saturated frame, t=250399430.689 - 250399438.689 29215 (1454/30669) seg=1111
saturated frame, t=250399438.689 - 250399446.689 28663 (1449/30112) seg=1111
saturated frame, t=250399446.689 - 250399454.689 28641 (1454/30095) seg=1111
frame time jump, t=250399454.689 - 250399718.689 by 264.000 s
... 60% ( 91572 / 152622 events )
... 70% ( 106834 / 152622 events )
... 80% ( 122096 / 152622 events )
frame time jump, t=250403934.688 - 250405446.688 by 1512.000 s
saturated frame, t=250405446.688 - 250405454.688 40845 (853/41698) seg=1111
saturated frame, t=250405454.688 - 250405462.688 37350 (808/38158) seg=1111
frame time jump, t=250405462.688 - 250405510.688 by 48.000 s
saturated frame, t=250405510.688 - 250405518.688 28638 (808/29446) seg=1111
saturated frame, t=250405518.688 - 250405526.688 33324 (1456/34780) seg=1111
saturated frame, t=250405526.688 - 250405534.688 32341 (1455/33796) seg=1111
... 90% ( 137358 / 152622 events )
saturated frame, t=250405534.688 - 250405542.688 31902 (1452/33354) seg=1111
saturated frame, t=250405542.688 - 250405550.688 32195 (1454/33649) seg=1111
saturated frame, t=250405550.688 - 250405558.688 32058 (1456/33514) seg=1111
saturated frame, t=250405558.688 - 250405566.688 32260 (1456/33716) seg=1111
saturated frame, t=250405566.688 - 250405574.688 32097 (1456/33553) seg=1111
saturated frame, t=250405574.688 - 250405582.688 32242 (1454/33696) seg=1111
frame time jump, t=250405582.688 - 250405846.688 by 264.000 s
... 100% ( 152622 / 152622 events )
XIScheckEventNo: GTI file 'ae802022010xi1_1_5x5n069.gti' created
N_FRAMES = 1305 / number of frames in the input event file
N_TESTED = 1286 / number of non-zero frames tested
N_PASSED = 1252 / number of frames passed the test
N_T_JUMP = 9 / number of frames detected time jump
N_SATURA = 34 / number of frames telemetry saturated
T_TESTED = 10288.000000 / exposure of non-zero frames tested
T_PASSED = 10016.000000 / exposure of frames passed the test
T_T_JUMP = 77327.992575 / loss of exposure due to time jump
T_SATURA = 272.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1306
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1305/1306
[ 2] XISreadExp version 1.6
| OK: 1305/1305
[ 3] XISreadEvent version 2.7 <------- LOOP: 152622
| OK: 152622/153927 -------> SKIP: 1305
[ 4] XIScheckEventNo version 1.2
| OK: 152622/152622
GET: 152622
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1305 : XISreadFrame:ENTRY
1305 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1305 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
153927 : XISreadEvent:ENTRY
153926 : XISreadEvent:OK
1286 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
152622 : XIScheckEventNo:ENTRY
152622 : 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 16 16 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 1305 153927 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1305 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1305 153927 SINGLE
XIS:FRAMES:S_TIME 8 8 1305 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1305 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1305 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1305 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1305 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1305 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1305 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1305 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1305 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1305 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1305 1286 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1305 0 SINGLE
XIS:FRAMES:BIAS 16 16 1305 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1305 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1305 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1305 153927 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1305 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1305 152622 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1305 1286 SINGLE
XIS:FRAMES:TIME 8 8 1305 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 152622 152622 SINGLE
XIS:RAWX 4 4 152622 0 SINGLE
XIS:RAWY 4 4 152622 0 SINGLE
XIS:ACTX 4 4 152622 0 SINGLE
XIS:ACTY 4 4 152622 0 SINGLE
XIS:DETX 4 4 152622 0 SINGLE
XIS:DETY 4 4 152622 0 SINGLE
XIS:FOCX 4 4 152622 0 SINGLE
XIS:FOCY 4 4 152622 0 SINGLE
XIS:X 4 4 152622 0 SINGLE
XIS:Y 4 4 152622 0 SINGLE
XIS:STATUS 4 4 152622 0 SINGLE
XIS:PHAS 100 100 152622 0 SINGLE
XIS:PHANOCTI 4 4 152622 0 SINGLE
XIS:PHA 4 4 152622 0 SINGLE
XIS:PI 4 4 152622 0 SINGLE
XIS:GRADE 4 4 152622 0 SINGLE
XIS:AEDATE 4 4 152622 153926 FAMILY
XIS:EXPTIME 4 4 152622 153926 FAMILY
XIS:EXPTIME_AETIME 8 8 152622 0 SINGLE
XIS:S_TIME 8 8 152622 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 152622 153926 FAMILY
XIS:EVENT_SEQ_NO 4 4 152622 153926 SINGLE
XIS:TIME 8 8 152622 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 152622 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 0.324 0.000 0.324 9.33
[ 2] XISreadExp 0.003 0.000 0.003 0.09
[ 3] XISreadEvent 2.847 0.117 2.964 85.32
[ 4] XIScheckEventNo 0.073 0.090 0.163 4.69
(others) 0.012 0.008 0.020 0.58
--------------------------------------------------------------------------
TOTAL 3.259 0.215 3.473 100.00
-> xisgtigen successful on ae802022010xi1_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 ae802022010xi1_2_3x3n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi1_2_3x3n069.fff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_2_3x3n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_2_3x3n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae802022010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 470641 events )
... 10% ( 47064 / 470641 events )
... 20% ( 94128 / 470641 events )
Event... 100001 (100000)
... 30% ( 141192 / 470641 events )
... 40% ( 188256 / 470641 events )
Event... 200001 (200000)
... 50% ( 235320 / 470641 events )
... 60% ( 282384 / 470641 events )
Event... 300001 (300000)
... 70% ( 329448 / 470641 events )
... 80% ( 376512 / 470641 events )
Event... 400001 (400000)
... 90% ( 423576 / 470641 events )
... 100% ( 470641 / 470641 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 250414054.687174 / time start
TSTOP = 250476822.676144 / time stop
TELAPASE = 62767.988970 / elapsed time = TSTOP - TSTART
ONTIME = 36663.990094 / on time = sum of all GTIs
LIVETIME = 36663.990094 / on-source time corrected for CCD exposure
EXPOSURE = 36663.990094 / exposure time
xisEventFitsUtil: rename ./filecWZR3s-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 470643
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 470642/470643
[ 2] XISreadExp version 1.6
| OK: 470642/470642
[ 3] XISreadEvent version 2.7
| OK: 470641/470642 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 470641/470641
[ 5] XISeditEventFits version 2.1
| OK: 470641/470641
GET: 470641
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
470642 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
470642 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
470642 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
470641 : XIStime:ENTRY
470641 : XIStime:OK
1 : XISeditEventFits:BEGIN
470641 : XISeditEventFits:ENTRY
470641 : 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 16 16 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 470641 470641 SINGLE
XIS:RAWX 4 4 470641 470641 SINGLE
XIS:RAWY 4 4 470641 470641 SINGLE
XIS:ACTX 4 4 470641 470641 SINGLE
XIS:ACTY 4 4 470641 470641 SINGLE
XIS:DETX 4 4 470641 470641 SINGLE
XIS:DETY 4 4 470641 470641 SINGLE
XIS:FOCX 4 4 470641 470641 SINGLE
XIS:FOCY 4 4 470641 470641 SINGLE
XIS:X 4 4 470641 470641 SINGLE
XIS:Y 4 4 470641 470641 SINGLE
XIS:STATUS 4 4 470641 470641 SINGLE
XIS:PHAS 36 36 470641 470641 SINGLE
XIS:PHANOCTI 4 4 470641 470641 SINGLE
XIS:PHA 4 4 470641 470641 SINGLE
XIS:PI 4 4 470641 470641 SINGLE
XIS:GRADE 4 4 470641 470641 SINGLE
XIS:P_OUTER_MOST 4 4 470641 470641 SINGLE
XIS:SUM_OUTER_MOST 4 4 470641 470641 SINGLE
XIS:AEDATE 4 4 941282 470641 FAMILY
XIS:EXPTIME 4 4 470641 941282 FAMILY
XIS:EXPTIME_AETIME 8 8 941282 470641 SINGLE
XIS:S_TIME 8 8 470641 941282 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 470641 941282 FAMILY
XIS:EVENT_SEQ_NO 4 4 470641 470641 SINGLE
XIS:TIME 8 8 941282 470641 SINGLE
XIS:EXP_CENT_AETIME 8 8 941282 470641 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 470643 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 0.307 0.267 0.574 3.08
[ 2] XISreadExp 0.172 0.233 0.405 2.17
[ 3] XISreadEvent 7.879 0.596 8.475 45.50
[ 4] XIStime 0.896 0.284 1.180 6.33
[ 5] XISeditEventFits 7.312 0.654 7.966 42.77
(others) 0.012 0.013 0.025 0.13
--------------------------------------------------------------------------
TOTAL 16.577 2.047 18.624 100.00
-> xistime successful on ae802022010xi1_2_3x3n069.sff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_2_3x3n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_2_3x3n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 = 190.68320 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 784.80 / 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 = 3.05550 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 816.87 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 470641 events )
... 10% ( 47064 / 470641 events )
... 20% ( 94128 / 470641 events )
Event... 100001 (100000)
... 30% ( 141192 / 470641 events )
... 40% ( 188256 / 470641 events )
Event... 200001 (200000)
... 50% ( 235320 / 470641 events )
... 60% ( 282384 / 470641 events )
Event... 300001 (300000)
... 70% ( 329448 / 470641 events )
... 80% ( 376512 / 470641 events )
Event... 400001 (400000)
... 90% ( 423576 / 470641 events )
... 100% ( 470641 / 470641 events )
xisEventFitsUtil: rename ./filehQF0Xf-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 470643
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 470642/470643
[ 2] XISreadExp version 1.6
| OK: 470642/470642
[ 3] XISreadEvent version 2.7
| OK: 470641/470642 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 470641/470641
[ 5] XISeditEventFits version 2.1
| OK: 470641/470641
GET: 470641
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
470642 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
470642 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
470642 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
470641 : XIScoord:ENTRY
470641 : XIScoord:OK
1 : XISeditEventFits:BEGIN
470641 : XISeditEventFits:ENTRY
470641 : 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 16 16 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 470641 941282 SINGLE
XIS:RAWX 4 4 470641 941282 SINGLE
XIS:RAWY 4 4 470641 941282 SINGLE
XIS:ACTX 4 4 941282 470641 SINGLE
XIS:ACTY 4 4 941282 470641 SINGLE
XIS:DETX 4 4 941282 470641 SINGLE
XIS:DETY 4 4 941282 470641 SINGLE
XIS:FOCX 4 4 941282 470641 SINGLE
XIS:FOCY 4 4 941282 470641 SINGLE
XIS:X 4 4 941282 470641 SINGLE
XIS:Y 4 4 941282 470641 SINGLE
XIS:STATUS 4 4 470641 470641 SINGLE
XIS:PHAS 36 36 470641 470641 SINGLE
XIS:PHANOCTI 4 4 470641 470641 SINGLE
XIS:PHA 4 4 470641 470641 SINGLE
XIS:PI 4 4 470641 470641 SINGLE
XIS:GRADE 4 4 470641 470641 SINGLE
XIS:P_OUTER_MOST 4 4 470641 470641 SINGLE
XIS:SUM_OUTER_MOST 4 4 470641 470641 SINGLE
XIS:AEDATE 4 4 470641 470641 FAMILY
XIS:EXPTIME 4 4 470641 470641 FAMILY
XIS:EXPTIME_AETIME 8 8 470641 470641 SINGLE
XIS:S_TIME 8 8 470641 470641 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 470641 470641 FAMILY
XIS:EVENT_SEQ_NO 4 4 470641 470641 SINGLE
XIS:TIME 8 8 470641 941282 SINGLE
XIS:EXP_CENT_AETIME 8 8 470641 470641 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 470643 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 0.412 0.232 0.644 3.04
[ 2] XISreadExp 0.155 0.236 0.391 1.84
[ 3] XISreadEvent 7.857 0.475 8.332 39.32
[ 4] XIScoord 3.323 0.379 3.702 17.47
[ 5] XISeditEventFits 7.301 0.799 8.100 38.22
(others) 0.016 0.006 0.022 0.10
--------------------------------------------------------------------------
TOTAL 19.064 2.127 21.191 100.00
-> xiscoord successful on ae802022010xi1_2_3x3n069.sff.infile,f,a,"ae802022010xi1_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 ae802022010xi1_2_3x3n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_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 / 470641 events )
... 10% ( 47064 / 470641 events )
... 20% ( 94128 / 470641 events )
Event... 100001 (100000)
... 30% ( 141192 / 470641 events )
... 40% ( 188256 / 470641 events )
Event... 200001 (200000)
... 50% ( 235320 / 470641 events )
... 60% ( 282384 / 470641 events )
Event... 300001 (300000)
... 70% ( 329448 / 470641 events )
... 80% ( 376512 / 470641 events )
Event... 400001 (400000)
... 90% ( 423576 / 470641 events )
... 100% ( 470641 / 470641 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 4198 0.89
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 13169 2.80
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 2105 0.45
B8 256 1PIX_FROM_SEGBOUNDARY 1952 0.41
B9 512 SCI_3rd_TRAILING_ROW 7308 1.55
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 22974 4.88
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 7383 1.57
B16 65536 CALMASK 50881 10.81
B17 131072 SEGBOUNDARY 7440 1.58
B18 262144 SCI_2nd_TRAILING_ROW 15972 3.39
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 48343 10.27
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 12752 2.71
B29 536870912 SCI_TRAILING_ROW 45464 9.66
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 27 0.01
### 0 CLEAN_ZERO 287771 61.14
--------------------------------------------------------------
+++ 4294967295 SUM 527739 112.13
::: 524287 SAFE(B0-18) 375712 79.83
>>> 4294967295 TOTAL 470641 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filekxBNdL-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 470643
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 470642/470643
[ 2] XISreadExp version 1.6
| OK: 470642/470642
[ 3] XISreadEvent version 2.7
| OK: 470641/470642 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 470641/470641
[ 5] XISeditEventFits version 2.1
| OK: 470641/470641
GET: 470641
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
470642 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
470642 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
470642 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
470641 : XISputPixelQuality:ENTRY
470641 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
470641 : XISeditEventFits:ENTRY
470641 : 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 16 16 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 470641 470641 SINGLE
XIS:RAWX 4 4 470641 470641 SINGLE
XIS:RAWY 4 4 470641 941282 SINGLE
XIS:ACTX 4 4 470641 941282 SINGLE
XIS:ACTY 4 4 470641 941282 SINGLE
XIS:DETX 4 4 470641 470641 SINGLE
XIS:DETY 4 4 470641 470641 SINGLE
XIS:FOCX 4 4 470641 470641 SINGLE
XIS:FOCY 4 4 470641 470641 SINGLE
XIS:X 4 4 470641 470641 SINGLE
XIS:Y 4 4 470641 470641 SINGLE
XIS:STATUS 4 4 941282 470641 SINGLE
XIS:PHAS 36 36 470641 470641 SINGLE
XIS:PHANOCTI 4 4 470641 470641 SINGLE
XIS:PHA 4 4 470641 470641 SINGLE
XIS:PI 4 4 470641 470641 SINGLE
XIS:GRADE 4 4 470641 470641 SINGLE
XIS:P_OUTER_MOST 4 4 470641 470641 SINGLE
XIS:SUM_OUTER_MOST 4 4 470641 470641 SINGLE
XIS:AEDATE 4 4 470641 470641 FAMILY
XIS:EXPTIME 4 4 470641 470641 FAMILY
XIS:EXPTIME_AETIME 8 8 470641 470641 SINGLE
XIS:S_TIME 8 8 470641 470641 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 470641 470641 FAMILY
XIS:EVENT_SEQ_NO 4 4 470641 470641 SINGLE
XIS:TIME 8 8 470641 941282 SINGLE
XIS:EXP_CENT_AETIME 8 8 470641 470641 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 470643 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 0.351 0.240 0.591 3.35
[ 2] XISreadExp 0.132 0.232 0.364 2.06
[ 3] XISreadEvent 7.618 0.297 7.915 44.90
[ 4] XISputPixelQuality 0.594 0.247 0.841 4.77
[ 5] XISeditEventFits 7.075 0.825 7.900 44.81
(others) 0.014 0.004 0.018 0.10
--------------------------------------------------------------------------
TOTAL 15.784 1.845 17.628 100.00
-> xisputpixelquality successful on ae802022010xi1_2_3x3n069.sff.infile,f,a,"ae802022010xi1_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,"ae802022010xi1_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 ae802022010xi1_2_3x3n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_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 30-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 68-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 'ae802022010xi1_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 ae802022010xi1_0.hk, S1_VDCHK18_CAL, nrows=4933
nvalid=4720 nrej=213 time=250319109.2 - 250478091.2 [s]
AE-temp: average=22.665 sigma=1.668 min=18.287 max=26.293 [degC]
Event... 1 (0)
... 0% ( 0 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 10% ( 47064 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 20% ( 94128 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 30% ( 141192 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 40% ( 188256 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 50% ( 235320 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 60% ( 282384 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 70% ( 329448 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 80% ( 376512 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 400001 (400000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 90% ( 423576 / 470641 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 100% ( 470641 / 470641 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filewBGQb1-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 470643
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 470642/470643
[ 2] XISreadExp version 1.6
| OK: 470642/470642
[ 3] XISreadEvent version 2.7
| OK: 470641/470642 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 470641/470641
[ 5] XIStrailCorrection version 3.1
| OK: 470641/470641
[ 6] XISctiCorrection version 3.4
| OK: 470641/470641
[ 7] XISgrade version 3.3
| OK: 470641/470641
[ 8] XISpha2pi version 3.2
| OK: 470641/470641
[ 9] XISeditEventFits version 2.1
| OK: 470641/470641
GET: 470641
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
470642 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
470642 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
470642 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
470641 : XISpreparePHASCORR:ENTRY
470641 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
470641 : XIStrailCorrection:ENTRY
470641 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
470641 : XISctiCorrection:ENTRY
470641 : XISctiCorrection:OK
1 : XISgrade:BEGIN
470641 : XISgrade:ENTRY
470641 : XISgrade:OK
1 : XISpha2pi:BEGIN
470641 : XISpha2pi:ENTRY
470641 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
470641 : XISeditEventFits:ENTRY
470641 : 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 1882570 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 16 16 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 470641 2353205 SINGLE
XIS:RAWX 4 4 470641 1411923 SINGLE
XIS:RAWY 4 4 470641 941282 SINGLE
XIS:ACTX 4 4 470641 470641 SINGLE
XIS:ACTY 4 4 470641 1411923 SINGLE
XIS:DETX 4 4 470641 470641 SINGLE
XIS:DETY 4 4 470641 470641 SINGLE
XIS:FOCX 4 4 470641 470641 SINGLE
XIS:FOCY 4 4 470641 470641 SINGLE
XIS:X 4 4 470641 470641 SINGLE
XIS:Y 4 4 470641 470641 SINGLE
XIS:STATUS 4 4 470641 470641 SINGLE
XIS:PHAS 36 36 470641 941282 SINGLE
XIS:PHANOCTI 4 4 941282 470641 SINGLE
XIS:PHA 4 4 941282 470641 SINGLE
XIS:PI 4 4 941282 470641 SINGLE
XIS:GRADE 4 4 941282 470641 SINGLE
XIS:P_OUTER_MOST 4 4 470641 941282 SINGLE
XIS:SUM_OUTER_MOST 4 4 470641 941282 SINGLE
XIS:AEDATE 4 4 470641 470641 FAMILY
XIS:EXPTIME 4 4 470641 470641 FAMILY
XIS:EXPTIME_AETIME 8 8 470641 470641 SINGLE
XIS:S_TIME 8 8 470641 470641 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 470641 470641 FAMILY
XIS:EVENT_SEQ_NO 4 4 470641 470641 SINGLE
XIS:TIME 8 8 470641 2353205 SINGLE
XIS:EXP_CENT_AETIME 8 8 470641 470641 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 470643 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 941282 470641 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 470641 470641 SINGLE
XIS:PHASCORR 72 72 1411923 1411923 SINGLE
XIS:PHA:DOUBLE 8 8 470641 470641 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 0.426 0.246 0.672 1.69
[ 2] XISreadExp 0.147 0.227 0.374 0.94
[ 3] XISreadEvent 8.018 0.381 8.399 21.15
[ 4] XISpreparePHASCORR 0.428 0.237 0.665 1.67
[ 5] XIStrailCorrection 0.942 0.236 1.178 2.97
[ 6] XISctiCorrection 12.627 4.753 17.380 43.76
[ 7] XISgrade 1.629 0.252 1.881 4.74
[ 8] XISpha2pi 1.016 0.226 1.242 3.13
[ 9] XISeditEventFits 7.275 0.621 7.896 19.88
(others) 0.021 0.008 0.029 0.07
--------------------------------------------------------------------------
TOTAL 32.528 7.187 39.715 100.00
-> xispi successful on ae802022010xi1_2_3x3n069.sff.infile,f,a,"ae802022010xi1_2_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"ae802022010xi1_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 ae802022010xi1_2_3x3n069.sff
OUTFILE ae802022010xi1_2_3x3n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae802022010xi1_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 / 470641 events )
frame time jump, t=250416174.687 - 250417398.687 by 1224.000 s
saturated frame, t=250417398.687 - 250417406.687 40795 (291/41086) seg=1111
saturated frame, t=250417406.687 - 250417414.687 36261 (286/36547) seg=1111
frame time jump, t=250417414.687 - 250417462.687 by 48.000 s
saturated frame, t=250417462.687 - 250417470.687 27286 (286/27572) seg=1111
saturated frame, t=250417470.687 - 250417478.687 33230 (420/33650) seg=1111
saturated frame, t=250417478.687 - 250417486.687 32488 (420/32908) seg=1111
saturated frame, t=250417486.687 - 250417494.687 32364 (420/32784) seg=1111
saturated frame, t=250417494.687 - 250417502.687 32503 (422/32925) seg=1111
saturated frame, t=250417502.687 - 250417510.687 32155 (422/32577) seg=1111
saturated frame, t=250417510.687 - 250417518.687 32431 (422/32853) seg=1111
saturated frame, t=250417518.687 - 250417526.687 32418 (421/32839) seg=1111
saturated frame, t=250417526.687 - 250417534.687 32180 (419/32599) seg=1111
saturated frame, t=250417534.687 - 250417542.687 32519 (423/32942) seg=1111
frame time jump, t=250417542.687 - 250417806.687 by 264.000 s
frame time jump, t=250419294.686 - 250421414.686 by 2120.000 s
... 10% ( 47064 / 470641 events )
frame time jump, t=250422278.686 - 250423366.686 by 1088.000 s
saturated frame, t=250423366.686 - 250423374.686 40838 (291/41129) seg=1111
saturated frame, t=250423374.686 - 250423382.686 36165 (286/36451) seg=1111
frame time jump, t=250423382.686 - 250423438.686 by 56.000 s
saturated frame, t=250423438.686 - 250423446.686 27395 (286/27681) seg=1111
saturated frame, t=250423446.686 - 250423454.686 3227 (419/3646) seg=1111
saturated frame, t=250423454.686 - 250423462.686 1897 (421/2318) seg=1111
saturated frame, t=250423462.686 - 250423470.686 1801 (422/2223) seg=1111
saturated frame, t=250423470.686 - 250423478.686 1600 (421/2021) seg=1111
saturated frame, t=250423478.686 - 250423486.686 1502 (421/1923) seg=1111
saturated frame, t=250423486.686 - 250423494.686 1413 (422/1835) seg=1111
saturated frame, t=250423494.686 - 250423502.686 1356 (422/1778) seg=1111
saturated frame, t=250423502.686 - 250423510.686 1311 (423/1734) seg=1111
frame time jump, t=250423510.686 - 250423774.686 by 264.000 s
frame time jump, t=250425038.685 - 250427190.685 by 2152.000 s
saturated frame, t=250428438.685 - 250428446.685 260 (172/432) seg=1111
frame time jump, t=250428446.685 - 250429126.685 by 680.000 s
saturated frame, t=250429126.685 - 250429134.685 41075 (292/41367) seg=1111
saturated frame, t=250429134.685 - 250429142.685 36188 (286/36474) seg=1111
frame time jump, t=250429142.685 - 250429198.685 by 56.000 s
saturated frame, t=250429198.685 - 250429206.685 27635 (286/27921) seg=1111
saturated frame, t=250429206.685 - 250429214.685 627 (419/1046) seg=1111
frame time jump, t=250429270.685 - 250429534.684 by 264.000 s
frame time jump, t=250430782.684 - 250432934.684 by 2152.000 s
... 20% ( 94128 / 470641 events )
frame time jump, t=250436542.683 - 250438694.683 by 2152.000 s
saturated frame, t=250439070.683 - 250439078.683 4 (369/373) seg=1111
... 30% ( 141192 / 470641 events )
frame time jump, t=250442302.682 - 250444454.682 by 2152.000 s
... 40% ( 188256 / 470641 events )
frame time jump, t=250448046.681 - 250450198.681 by 2152.000 s
... 50% ( 235320 / 470641 events )
frame time jump, t=250453806.680 - 250455934.680 by 2128.000 s
... 60% ( 282384 / 470641 events )
saturated frame, t=250459550.679 - 250459558.679 178 (177/355) seg=1111
frame time jump, t=250459558.679 - 250461702.679 by 2144.000 s
... 70% ( 329448 / 470641 events )
saturated frame, t=250465286.678 - 250465294.678 98 (385/483) seg=1111
saturated frame, t=250465310.678 - 250465318.678 281 (183/464) seg=1111
frame time jump, t=250465318.678 - 250467678.678 by 2360.000 s
saturated frame, t=250467678.678 - 250467686.678 142 (421/563) seg=1111
... 80% ( 376512 / 470641 events )
saturated frame, t=250468142.678 - 250468150.678 16 (395/411) seg=1111
saturated frame, t=250469022.678 - 250469030.678 2 (394/396) seg=1111
... 90% ( 423576 / 470641 events )
saturated frame, t=250471062.677 - 250471070.677 164 (421/585) seg=1111
saturated frame, t=250471070.677 - 250471078.677 574 (185/759) seg=1111
frame time jump, t=250471078.677 - 250473406.677 by 2328.000 s
saturated frame, t=250473406.677 - 250473414.677 42167 (289/42456) seg=1111
saturated frame, t=250473414.677 - 250473422.677 36026 (286/36312) seg=1111
frame time jump, t=250473422.677 - 250473478.677 by 56.000 s
saturated frame, t=250473478.677 - 250473486.677 27232 (286/27518) seg=1111
saturated frame, t=250473486.677 - 250473494.677 1673 (414/2087) seg=1111
saturated frame, t=250473494.677 - 250473502.677 876 (404/1280) seg=1111
saturated frame, t=250473502.677 - 250473510.677 868 (405/1273) seg=1111
saturated frame, t=250473510.677 - 250473518.677 708 (408/1116) seg=1111
saturated frame, t=250473518.677 - 250473526.677 708 (411/1119) seg=1111
saturated frame, t=250473526.677 - 250473534.677 690 (408/1098) seg=1111
saturated frame, t=250473534.677 - 250473542.677 657 (408/1065) seg=1111
saturated frame, t=250473542.677 - 250473550.677 649 (408/1057) seg=1111
frame time jump, t=250473550.677 - 250473814.677 by 264.000 s
saturated frame, t=250475086.677 - 250475094.677 69 (318/387) seg=1111
... 100% ( 470641 / 470641 events )
saturated frame, t=250476814.676 - 250476822.676 57 (182/239) seg=1111
XIScheckEventNo: GTI file 'ae802022010xi1_2_3x3n069.gti' created
N_FRAMES = 4610 / number of frames in the input event file
N_TESTED = 4583 / number of non-zero frames tested
N_PASSED = 4533 / number of frames passed the test
N_T_JUMP = 21 / number of frames detected time jump
N_SATURA = 50 / number of frames telemetry saturated
T_TESTED = 36664.000000 / exposure of non-zero frames tested
T_PASSED = 36264.000000 / exposure of frames passed the test
T_T_JUMP = 26103.998876 / loss of exposure due to time jump
T_SATURA = 400.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 4611
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 4610/4611
[ 2] XISreadExp version 1.6
| OK: 4610/4610
[ 3] XISreadEvent version 2.7 <------- LOOP: 470641
| OK: 470641/475251 -------> SKIP: 4610
[ 4] XIScheckEventNo version 1.2
| OK: 470641/470641
GET: 470641
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
4610 : XISreadFrame:ENTRY
4610 : XISreadFrame:OK
1 : XISreadExp:BEGIN
4610 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
475251 : XISreadEvent:ENTRY
475250 : XISreadEvent:OK
4583 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
470641 : XIScheckEventNo:ENTRY
470641 : 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 16 16 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 4610 475251 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 4610 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 4610 475251 SINGLE
XIS:FRAMES:S_TIME 8 8 4610 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 4610 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 4610 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 4610 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 4610 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 4610 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 4610 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 4610 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 4610 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 4610 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 4610 4583 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 4610 0 SINGLE
XIS:FRAMES:BIAS 16 16 4610 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 4610 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 4610 0 SINGLE
XIS:FRAMES:AEDATE 4 4 4610 475251 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 4610 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 4610 470641 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 4610 4583 SINGLE
XIS:FRAMES:TIME 8 8 4610 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 470641 470641 SINGLE
XIS:RAWX 4 4 470641 0 SINGLE
XIS:RAWY 4 4 470641 0 SINGLE
XIS:ACTX 4 4 470641 0 SINGLE
XIS:ACTY 4 4 470641 0 SINGLE
XIS:DETX 4 4 470641 0 SINGLE
XIS:DETY 4 4 470641 0 SINGLE
XIS:FOCX 4 4 470641 0 SINGLE
XIS:FOCY 4 4 470641 0 SINGLE
XIS:X 4 4 470641 0 SINGLE
XIS:Y 4 4 470641 0 SINGLE
XIS:STATUS 4 4 470641 0 SINGLE
XIS:PHAS 36 36 470641 0 SINGLE
XIS:PHANOCTI 4 4 470641 0 SINGLE
XIS:PHA 4 4 470641 0 SINGLE
XIS:PI 4 4 470641 0 SINGLE
XIS:GRADE 4 4 470641 0 SINGLE
XIS:P_OUTER_MOST 4 4 470641 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 470641 0 SINGLE
XIS:AEDATE 4 4 470641 475250 FAMILY
XIS:EXPTIME 4 4 470641 475250 FAMILY
XIS:EXPTIME_AETIME 8 8 470641 0 SINGLE
XIS:S_TIME 8 8 470641 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 470641 475250 FAMILY
XIS:EVENT_SEQ_NO 4 4 470641 475250 SINGLE
XIS:TIME 8 8 470641 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 470641 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 1.132 0.009 1.141 10.17
[ 2] XISreadExp 0.005 0.001 0.006 0.05
[ 3] XISreadEvent 9.325 0.271 9.596 85.56
[ 4] XIScheckEventNo 0.214 0.235 0.449 4.00
(others) 0.018 0.006 0.024 0.21
--------------------------------------------------------------------------
TOTAL 10.693 0.522 11.215 100.00
-> xisgtigen successful on ae802022010xi1_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 ae802022010xi1_2_5x5n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi1_2_5x5n069.fff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_2_5x5n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_2_5x5n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae802022010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 74733 events )
... 10% ( 7473 / 74733 events )
... 20% ( 14946 / 74733 events )
... 30% ( 22419 / 74733 events )
... 40% ( 29892 / 74733 events )
... 50% ( 37365 / 74733 events )
... 60% ( 44838 / 74733 events )
... 70% ( 52311 / 74733 events )
... 80% ( 59784 / 74733 events )
... 90% ( 67257 / 74733 events )
... 100% ( 74733 / 74733 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 250406742.687725 / time start
TSTOP = 250414054.687175 / time stop
TELAPASE = 7311.999449 / elapsed time = TSTOP - TSTART
ONTIME = 5623.999661 / on time = sum of all GTIs
LIVETIME = 5623.999661 / on-source time corrected for CCD exposure
EXPOSURE = 5623.999661 / exposure time
xisEventFitsUtil: rename ./fileq4vV3Y-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 74735
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 74734/74735
[ 2] XISreadExp version 1.6
| OK: 74734/74734
[ 3] XISreadEvent version 2.7
| OK: 74733/74734 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 74733/74733
[ 5] XISeditEventFits version 2.1
| OK: 74733/74733
GET: 74733
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
74734 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
74734 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
74734 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
74733 : XIStime:ENTRY
74733 : XIStime:OK
1 : XISeditEventFits:BEGIN
74733 : XISeditEventFits:ENTRY
74733 : 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 16 16 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 74733 74733 SINGLE
XIS:RAWX 4 4 74733 74733 SINGLE
XIS:RAWY 4 4 74733 74733 SINGLE
XIS:ACTX 4 4 74733 74733 SINGLE
XIS:ACTY 4 4 74733 74733 SINGLE
XIS:DETX 4 4 74733 74733 SINGLE
XIS:DETY 4 4 74733 74733 SINGLE
XIS:FOCX 4 4 74733 74733 SINGLE
XIS:FOCY 4 4 74733 74733 SINGLE
XIS:X 4 4 74733 74733 SINGLE
XIS:Y 4 4 74733 74733 SINGLE
XIS:STATUS 4 4 74733 74733 SINGLE
XIS:PHAS 100 100 74733 74733 SINGLE
XIS:PHANOCTI 4 4 74733 74733 SINGLE
XIS:PHA 4 4 74733 74733 SINGLE
XIS:PI 4 4 74733 74733 SINGLE
XIS:GRADE 4 4 74733 74733 SINGLE
XIS:AEDATE 4 4 149466 74733 FAMILY
XIS:EXPTIME 4 4 74733 149466 FAMILY
XIS:EXPTIME_AETIME 8 8 149466 74733 SINGLE
XIS:S_TIME 8 8 74733 149466 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74733 149466 FAMILY
XIS:EVENT_SEQ_NO 4 4 74733 74733 SINGLE
XIS:TIME 8 8 149466 74733 SINGLE
XIS:EXP_CENT_AETIME 8 8 149466 74733 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 74735 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 0.059 0.046 0.105 3.57
[ 2] XISreadExp 0.015 0.031 0.046 1.57
[ 3] XISreadEvent 1.191 0.101 1.292 43.98
[ 4] XIStime 0.248 0.048 0.296 10.08
[ 5] XISeditEventFits 1.061 0.120 1.181 40.20
(others) 0.009 0.009 0.018 0.61
--------------------------------------------------------------------------
TOTAL 2.583 0.355 2.938 100.00
-> xistime successful on ae802022010xi1_2_5x5n069.sff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_2_5x5n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_2_5x5n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 = 190.68320 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 784.80 / 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 = 3.05550 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 816.87 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 74733 events )
... 10% ( 7473 / 74733 events )
... 20% ( 14946 / 74733 events )
... 30% ( 22419 / 74733 events )
... 40% ( 29892 / 74733 events )
... 50% ( 37365 / 74733 events )
... 60% ( 44838 / 74733 events )
... 70% ( 52311 / 74733 events )
... 80% ( 59784 / 74733 events )
... 90% ( 67257 / 74733 events )
... 100% ( 74733 / 74733 events )
xisEventFitsUtil: rename ./fileX8KqFB-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 74735
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 74734/74735
[ 2] XISreadExp version 1.6
| OK: 74734/74734
[ 3] XISreadEvent version 2.7
| OK: 74733/74734 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 74733/74733
[ 5] XISeditEventFits version 2.1
| OK: 74733/74733
GET: 74733
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
74734 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
74734 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
74734 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
74733 : XIScoord:ENTRY
74733 : XIScoord:OK
1 : XISeditEventFits:BEGIN
74733 : XISeditEventFits:ENTRY
74733 : 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 16 16 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 74733 149466 SINGLE
XIS:RAWX 4 4 74733 149466 SINGLE
XIS:RAWY 4 4 74733 149466 SINGLE
XIS:ACTX 4 4 149466 74733 SINGLE
XIS:ACTY 4 4 149466 74733 SINGLE
XIS:DETX 4 4 149466 74733 SINGLE
XIS:DETY 4 4 149466 74733 SINGLE
XIS:FOCX 4 4 149466 74733 SINGLE
XIS:FOCY 4 4 149466 74733 SINGLE
XIS:X 4 4 149466 74733 SINGLE
XIS:Y 4 4 149466 74733 SINGLE
XIS:STATUS 4 4 74733 74733 SINGLE
XIS:PHAS 100 100 74733 74733 SINGLE
XIS:PHANOCTI 4 4 74733 74733 SINGLE
XIS:PHA 4 4 74733 74733 SINGLE
XIS:PI 4 4 74733 74733 SINGLE
XIS:GRADE 4 4 74733 74733 SINGLE
XIS:AEDATE 4 4 74733 74733 FAMILY
XIS:EXPTIME 4 4 74733 74733 FAMILY
XIS:EXPTIME_AETIME 8 8 74733 74733 SINGLE
XIS:S_TIME 8 8 74733 74733 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74733 74733 FAMILY
XIS:EVENT_SEQ_NO 4 4 74733 74733 SINGLE
XIS:TIME 8 8 74733 149466 SINGLE
XIS:EXP_CENT_AETIME 8 8 74733 74733 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 74735 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 0.060 0.047 0.107 3.21
[ 2] XISreadExp 0.021 0.037 0.058 1.74
[ 3] XISreadEvent 1.192 0.097 1.289 38.66
[ 4] XIScoord 0.551 0.080 0.631 18.93
[ 5] XISeditEventFits 1.097 0.130 1.227 36.80
(others) 0.017 0.005 0.022 0.66
--------------------------------------------------------------------------
TOTAL 2.938 0.396 3.333 100.00
-> xiscoord successful on ae802022010xi1_2_5x5n069.sff.infile,f,a,"ae802022010xi1_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 ae802022010xi1_2_5x5n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_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 / 74733 events )
... 10% ( 7473 / 74733 events )
... 20% ( 14946 / 74733 events )
... 30% ( 22419 / 74733 events )
... 40% ( 29892 / 74733 events )
... 50% ( 37365 / 74733 events )
... 60% ( 44838 / 74733 events )
... 70% ( 52311 / 74733 events )
... 80% ( 59784 / 74733 events )
... 90% ( 67257 / 74733 events )
... 100% ( 74733 / 74733 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 811 1.09
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 1808 2.42
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 468 0.63
B8 256 1PIX_FROM_SEGBOUNDARY 323 0.43
B9 512 SCI_3rd_TRAILING_ROW 1649 2.21
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 2652 3.55
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 1017 1.36
B16 65536 CALMASK 7084 9.48
B17 131072 SEGBOUNDARY 733 0.98
B18 262144 SCI_2nd_TRAILING_ROW 1555 2.08
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 8904 11.91
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 1593 2.13
B29 536870912 SCI_TRAILING_ROW 5228 7.00
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 72 0.10
### 0 CLEAN_ZERO 49612 66.39
--------------------------------------------------------------
+++ 4294967295 SUM 83509 111.74
::: 524287 SAFE(B0-18) 61563 82.38
>>> 4294967295 TOTAL 74733 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filedGV1vm-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 74735
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 74734/74735
[ 2] XISreadExp version 1.6
| OK: 74734/74734
[ 3] XISreadEvent version 2.7
| OK: 74733/74734 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 74733/74733
[ 5] XISeditEventFits version 2.1
| OK: 74733/74733
GET: 74733
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
74734 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
74734 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
74734 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
74733 : XISputPixelQuality:ENTRY
74733 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
74733 : XISeditEventFits:ENTRY
74733 : 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 16 16 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 74733 74733 SINGLE
XIS:RAWX 4 4 74733 74733 SINGLE
XIS:RAWY 4 4 74733 149466 SINGLE
XIS:ACTX 4 4 74733 149466 SINGLE
XIS:ACTY 4 4 74733 149466 SINGLE
XIS:DETX 4 4 74733 74733 SINGLE
XIS:DETY 4 4 74733 74733 SINGLE
XIS:FOCX 4 4 74733 74733 SINGLE
XIS:FOCY 4 4 74733 74733 SINGLE
XIS:X 4 4 74733 74733 SINGLE
XIS:Y 4 4 74733 74733 SINGLE
XIS:STATUS 4 4 149466 74733 SINGLE
XIS:PHAS 100 100 74733 74733 SINGLE
XIS:PHANOCTI 4 4 74733 74733 SINGLE
XIS:PHA 4 4 74733 74733 SINGLE
XIS:PI 4 4 74733 74733 SINGLE
XIS:GRADE 4 4 74733 74733 SINGLE
XIS:AEDATE 4 4 74733 74733 FAMILY
XIS:EXPTIME 4 4 74733 74733 FAMILY
XIS:EXPTIME_AETIME 8 8 74733 74733 SINGLE
XIS:S_TIME 8 8 74733 74733 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74733 74733 FAMILY
XIS:EVENT_SEQ_NO 4 4 74733 74733 SINGLE
XIS:TIME 8 8 74733 149466 SINGLE
XIS:EXP_CENT_AETIME 8 8 74733 74733 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 74735 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 0.046 0.037 0.083 2.97
[ 2] XISreadExp 0.028 0.032 0.060 2.15
[ 3] XISreadEvent 1.164 0.063 1.227 43.88
[ 4] XISputPixelQuality 0.130 0.048 0.178 6.37
[ 5] XISeditEventFits 1.066 0.163 1.229 43.96
(others) 0.008 0.011 0.019 0.68
--------------------------------------------------------------------------
TOTAL 2.442 0.354 2.796 100.00
-> xisputpixelquality successful on ae802022010xi1_2_5x5n069.sff.infile,f,a,"ae802022010xi1_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,"ae802022010xi1_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 ae802022010xi1_2_5x5n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_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 30-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 68-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 'ae802022010xi1_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 ae802022010xi1_0.hk, S1_VDCHK18_CAL, nrows=4933
nvalid=4720 nrej=213 time=250319109.2 - 250478091.2 [s]
AE-temp: average=22.665 sigma=1.668 min=18.287 max=26.293 [degC]
Event... 1 (0)
... 0% ( 0 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 10% ( 7473 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 20% ( 14946 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 30% ( 22419 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 40% ( 29892 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 50% ( 37365 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 60% ( 44838 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 70% ( 52311 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 80% ( 59784 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 90% ( 67257 / 74733 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 100% ( 74733 / 74733 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileeTlpMt-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 74735
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 74734/74735
[ 2] XISreadExp version 1.6
| OK: 74734/74734
[ 3] XISreadEvent version 2.7
| OK: 74733/74734 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 74733/74733
[ 5] XIStrailCorrection version 3.1
| OK: 74733/74733
[ 6] XISctiCorrection version 3.4
| OK: 74733/74733
[ 7] XISgrade version 3.3
| OK: 74733/74733
[ 8] XISpha2pi version 3.2
| OK: 74733/74733
[ 9] XISeditEventFits version 2.1
| OK: 74733/74733
GET: 74733
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
74734 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
74734 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
74734 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
74733 : XISpreparePHASCORR:ENTRY
74733 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
74733 : XIStrailCorrection:ENTRY
74733 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
74733 : XISctiCorrection:ENTRY
74733 : XISctiCorrection:OK
1 : XISgrade:BEGIN
74733 : XISgrade:ENTRY
74733 : XISgrade:OK
1 : XISpha2pi:BEGIN
74733 : XISpha2pi:ENTRY
74733 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
74733 : XISeditEventFits:ENTRY
74733 : 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 298938 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 16 16 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 74733 373665 SINGLE
XIS:RAWX 4 4 74733 224199 SINGLE
XIS:RAWY 4 4 74733 149466 SINGLE
XIS:ACTX 4 4 74733 74733 SINGLE
XIS:ACTY 4 4 74733 224199 SINGLE
XIS:DETX 4 4 74733 74733 SINGLE
XIS:DETY 4 4 74733 74733 SINGLE
XIS:FOCX 4 4 74733 74733 SINGLE
XIS:FOCY 4 4 74733 74733 SINGLE
XIS:X 4 4 74733 74733 SINGLE
XIS:Y 4 4 74733 74733 SINGLE
XIS:STATUS 4 4 74733 74733 SINGLE
XIS:PHAS 100 100 74733 149466 SINGLE
XIS:PHANOCTI 4 4 149466 74733 SINGLE
XIS:PHA 4 4 149466 74733 SINGLE
XIS:PI 4 4 149466 74733 SINGLE
XIS:GRADE 4 4 149466 74733 SINGLE
XIS:AEDATE 4 4 74733 74733 FAMILY
XIS:EXPTIME 4 4 74733 74733 FAMILY
XIS:EXPTIME_AETIME 8 8 74733 74733 SINGLE
XIS:S_TIME 8 8 74733 74733 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74733 74733 FAMILY
XIS:EVENT_SEQ_NO 4 4 74733 74733 SINGLE
XIS:TIME 8 8 74733 373665 SINGLE
XIS:EXP_CENT_AETIME 8 8 74733 74733 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 74735 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 149466 74733 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 74733 74733 SINGLE
XIS:PHASCORR 200 200 224199 224199 SINGLE
XIS:PHA:DOUBLE 8 8 74733 74733 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 0.064 0.046 0.110 1.45
[ 2] XISreadExp 0.019 0.045 0.064 0.84
[ 3] XISreadEvent 1.216 0.064 1.280 16.85
[ 4] XISpreparePHASCORR 0.078 0.031 0.109 1.43
[ 5] XIStrailCorrection 0.170 0.036 0.206 2.71
[ 6] XISctiCorrection 3.348 0.704 4.052 53.35
[ 7] XISgrade 0.243 0.042 0.285 3.75
[ 8] XISpha2pi 0.209 0.036 0.245 3.22
[ 9] XISeditEventFits 1.094 0.124 1.218 16.03
(others) 0.018 0.009 0.027 0.36
--------------------------------------------------------------------------
TOTAL 6.459 1.137 7.596 100.00
-> xispi successful on ae802022010xi1_2_5x5n069.sff.infile,f,a,"ae802022010xi1_2_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"ae802022010xi1_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 ae802022010xi1_2_5x5n069.sff
OUTFILE ae802022010xi1_2_5x5n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae802022010xi1_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 / 74733 events )
saturated frame, t=250406742.688 - 250406750.688 -20 (20/0) seg=1111
... 10% ( 7473 / 74733 events )
... 20% ( 14946 / 74733 events )
... 30% ( 22419 / 74733 events )
... 40% ( 29892 / 74733 events )
frame time jump, t=250410054.688 - 250411430.688 by 1376.000 s
saturated frame, t=250411430.688 - 250411438.688 40850 (826/41676) seg=1111
saturated frame, t=250411438.688 - 250411446.688 37491 (808/38299) seg=1111
frame time jump, t=250411446.688 - 250411494.688 by 48.000 s
saturated frame, t=250411494.688 - 250411502.688 28747 (808/29555) seg=1111
saturated frame, t=250411502.688 - 250411510.688 35479 (1455/36934) seg=1111
... 50% ( 37365 / 74733 events )
saturated frame, t=250411510.688 - 250411518.688 34828 (1456/36284) seg=1111
saturated frame, t=250411518.688 - 250411526.688 34814 (1456/36270) seg=1111
saturated frame, t=250411526.688 - 250411534.688 34667 (1447/36114) seg=1111
saturated frame, t=250411534.688 - 250411542.688 34801 (1455/36256) seg=1111
saturated frame, t=250411542.688 - 250411550.688 34702 (1457/36159) seg=1111
... 60% ( 44838 / 74733 events )
saturated frame, t=250411550.688 - 250411558.688 34771 (1456/36227) seg=1111
saturated frame, t=250411558.688 - 250411566.688 35000 (1456/36456) seg=1111
saturated frame, t=250411566.688 - 250411574.688 35140 (1456/36596) seg=1111
frame time jump, t=250411574.688 - 250411838.688 by 264.000 s
... 70% ( 52311 / 74733 events )
... 80% ( 59784 / 74733 events )
... 90% ( 67257 / 74733 events )
saturated frame, t=250413534.687 - 250413542.687 392 (1423/1815) seg=1111
... 100% ( 74733 / 74733 events )
XIScheckEventNo: GTI file 'ae802022010xi1_2_5x5n069.gti' created
N_FRAMES = 709 / number of frames in the input event file
N_TESTED = 703 / number of non-zero frames tested
N_PASSED = 689 / number of frames passed the test
N_T_JUMP = 3 / number of frames detected time jump
N_SATURA = 14 / number of frames telemetry saturated
T_TESTED = 5624.000000 / exposure of non-zero frames tested
T_PASSED = 5512.000000 / exposure of frames passed the test
T_T_JUMP = 1687.999788 / loss of exposure due to time jump
T_SATURA = 112.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 710
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 709/710
[ 2] XISreadExp version 1.6
| OK: 709/709
[ 3] XISreadEvent version 2.7 <------- LOOP: 74733
| OK: 74733/75442 -------> SKIP: 709
[ 4] XIScheckEventNo version 1.2
| OK: 74733/74733
GET: 74733
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
709 : XISreadFrame:ENTRY
709 : XISreadFrame:OK
1 : XISreadExp:BEGIN
709 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
75442 : XISreadEvent:ENTRY
75441 : XISreadEvent:OK
703 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
74733 : XIScheckEventNo:ENTRY
74733 : 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 16 16 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 4 709 75442 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 709 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 709 75442 SINGLE
XIS:FRAMES:S_TIME 8 8 709 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 709 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 709 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 709 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 709 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 709 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 709 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 709 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 709 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 709 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 709 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 709 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 709 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 709 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 709 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 709 703 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 709 0 SINGLE
XIS:FRAMES:BIAS 16 16 709 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 709 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 709 0 SINGLE
XIS:FRAMES:AEDATE 4 4 709 75442 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 709 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 709 74733 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 709 703 SINGLE
XIS:FRAMES:TIME 8 8 709 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 74733 74733 SINGLE
XIS:RAWX 4 4 74733 0 SINGLE
XIS:RAWY 4 4 74733 0 SINGLE
XIS:ACTX 4 4 74733 0 SINGLE
XIS:ACTY 4 4 74733 0 SINGLE
XIS:DETX 4 4 74733 0 SINGLE
XIS:DETY 4 4 74733 0 SINGLE
XIS:FOCX 4 4 74733 0 SINGLE
XIS:FOCY 4 4 74733 0 SINGLE
XIS:X 4 4 74733 0 SINGLE
XIS:Y 4 4 74733 0 SINGLE
XIS:STATUS 4 4 74733 0 SINGLE
XIS:PHAS 100 100 74733 0 SINGLE
XIS:PHANOCTI 4 4 74733 0 SINGLE
XIS:PHA 4 4 74733 0 SINGLE
XIS:PI 4 4 74733 0 SINGLE
XIS:GRADE 4 4 74733 0 SINGLE
XIS:AEDATE 4 4 74733 75441 FAMILY
XIS:EXPTIME 4 4 74733 75441 FAMILY
XIS:EXPTIME_AETIME 8 8 74733 0 SINGLE
XIS:S_TIME 8 8 74733 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74733 75441 FAMILY
XIS:EVENT_SEQ_NO 4 4 74733 75441 SINGLE
XIS:TIME 8 8 74733 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 74733 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 0.153 0.006 0.159 9.10
[ 2] XISreadExp 0.002 0.001 0.003 0.17
[ 3] XISreadEvent 1.419 0.051 1.470 84.10
[ 4] XIScheckEventNo 0.050 0.046 0.096 5.49
(others) 0.013 0.007 0.020 1.14
--------------------------------------------------------------------------
TOTAL 1.637 0.111 1.748 100.00
-> xisgtigen successful on ae802022010xi1_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 ae802022010xi3_1_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi3_1_3x3n066.fff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_1_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_1_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae802022010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 422379 events )
... 10% ( 42237 / 422379 events )
... 20% ( 84474 / 422379 events )
Event... 100001 (100000)
... 30% ( 126711 / 422379 events )
... 40% ( 168948 / 422379 events )
Event... 200001 (200000)
... 50% ( 211185 / 422379 events )
... 60% ( 253422 / 422379 events )
... 70% ( 295659 / 422379 events )
Event... 300001 (300000)
... 80% ( 337896 / 422379 events )
... 90% ( 380133 / 422379 events )
Event... 400001 (400000)
... 100% ( 422379 / 422379 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 250321654.695981 / time start
TSTOP = 250394958.688758 / time stop
TELAPASE = 73303.992777 / elapsed time = TSTOP - TSTART
ONTIME = 63359.993532 / on time = sum of all GTIs
LIVETIME = 63359.993532 / on-source time corrected for CCD exposure
EXPOSURE = 63359.993532 / exposure time
xisEventFitsUtil: rename ./fileVle5Eb-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 422381
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 422380/422381
[ 2] XISreadExp version 1.6
| OK: 422380/422380
[ 3] XISreadEvent version 2.7
| OK: 422379/422380 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 422379/422379
[ 5] XISeditEventFits version 2.1
| OK: 422379/422379
GET: 422379
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
422380 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
422380 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
422380 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
422379 : XIStime:ENTRY
422379 : XIStime:OK
1 : XISeditEventFits:BEGIN
422379 : XISeditEventFits:ENTRY
422379 : 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 16 16 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 422379 422379 SINGLE
XIS:RAWX 4 4 422379 422379 SINGLE
XIS:RAWY 4 4 422379 422379 SINGLE
XIS:ACTX 4 4 422379 422379 SINGLE
XIS:ACTY 4 4 422379 422379 SINGLE
XIS:DETX 4 4 422379 422379 SINGLE
XIS:DETY 4 4 422379 422379 SINGLE
XIS:FOCX 4 4 422379 422379 SINGLE
XIS:FOCY 4 4 422379 422379 SINGLE
XIS:X 4 4 422379 422379 SINGLE
XIS:Y 4 4 422379 422379 SINGLE
XIS:STATUS 4 4 422379 422379 SINGLE
XIS:PHAS 36 36 422379 422379 SINGLE
XIS:PHANOCTI 4 4 422379 422379 SINGLE
XIS:PHA 4 4 422379 422379 SINGLE
XIS:PI 4 4 422379 422379 SINGLE
XIS:GRADE 4 4 422379 422379 SINGLE
XIS:P_OUTER_MOST 4 4 422379 422379 SINGLE
XIS:SUM_OUTER_MOST 4 4 422379 422379 SINGLE
XIS:AEDATE 4 4 844758 422379 FAMILY
XIS:EXPTIME 4 4 422379 844758 FAMILY
XIS:EXPTIME_AETIME 8 8 844758 422379 SINGLE
XIS:S_TIME 8 8 422379 844758 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 422379 844758 FAMILY
XIS:EVENT_SEQ_NO 4 4 422379 422379 SINGLE
XIS:TIME 8 8 844758 422379 SINGLE
XIS:EXP_CENT_AETIME 8 8 844758 422379 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 422381 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 0.262 0.255 0.517 3.12
[ 2] XISreadExp 0.122 0.185 0.307 1.86
[ 3] XISreadEvent 7.099 0.452 7.551 45.65
[ 4] XIStime 0.963 0.243 1.206 7.29
[ 5] XISeditEventFits 6.409 0.534 6.943 41.97
(others) 0.009 0.009 0.018 0.11
--------------------------------------------------------------------------
TOTAL 14.864 1.678 16.541 100.00
-> xistime successful on ae802022010xi3_1_3x3n066.sff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_1_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_1_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 = 190.68320 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 746.47 / 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 = 3.05550 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 724.60 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 422379 events )
... 10% ( 42237 / 422379 events )
... 20% ( 84474 / 422379 events )
Event... 100001 (100000)
... 30% ( 126711 / 422379 events )
... 40% ( 168948 / 422379 events )
Event... 200001 (200000)
... 50% ( 211185 / 422379 events )
... 60% ( 253422 / 422379 events )
... 70% ( 295659 / 422379 events )
Event... 300001 (300000)
... 80% ( 337896 / 422379 events )
... 90% ( 380133 / 422379 events )
Event... 400001 (400000)
... 100% ( 422379 / 422379 events )
xisEventFitsUtil: rename ./filewTPXNz-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 422381
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 422380/422381
[ 2] XISreadExp version 1.6
| OK: 422380/422380
[ 3] XISreadEvent version 2.7
| OK: 422379/422380 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 422379/422379
[ 5] XISeditEventFits version 2.1
| OK: 422379/422379
GET: 422379
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
422380 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
422380 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
422380 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
422379 : XIScoord:ENTRY
422379 : XIScoord:OK
1 : XISeditEventFits:BEGIN
422379 : XISeditEventFits:ENTRY
422379 : 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 16 16 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 422379 844758 SINGLE
XIS:RAWX 4 4 422379 844758 SINGLE
XIS:RAWY 4 4 422379 844758 SINGLE
XIS:ACTX 4 4 844758 422379 SINGLE
XIS:ACTY 4 4 844758 422379 SINGLE
XIS:DETX 4 4 844758 422379 SINGLE
XIS:DETY 4 4 844758 422379 SINGLE
XIS:FOCX 4 4 844758 422379 SINGLE
XIS:FOCY 4 4 844758 422379 SINGLE
XIS:X 4 4 844758 422379 SINGLE
XIS:Y 4 4 844758 422379 SINGLE
XIS:STATUS 4 4 422379 422379 SINGLE
XIS:PHAS 36 36 422379 422379 SINGLE
XIS:PHANOCTI 4 4 422379 422379 SINGLE
XIS:PHA 4 4 422379 422379 SINGLE
XIS:PI 4 4 422379 422379 SINGLE
XIS:GRADE 4 4 422379 422379 SINGLE
XIS:P_OUTER_MOST 4 4 422379 422379 SINGLE
XIS:SUM_OUTER_MOST 4 4 422379 422379 SINGLE
XIS:AEDATE 4 4 422379 422379 FAMILY
XIS:EXPTIME 4 4 422379 422379 FAMILY
XIS:EXPTIME_AETIME 8 8 422379 422379 SINGLE
XIS:S_TIME 8 8 422379 422379 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 422379 422379 FAMILY
XIS:EVENT_SEQ_NO 4 4 422379 422379 SINGLE
XIS:TIME 8 8 422379 844758 SINGLE
XIS:EXP_CENT_AETIME 8 8 422379 422379 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 422381 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 0.351 0.213 0.564 2.97
[ 2] XISreadExp 0.122 0.219 0.341 1.80
[ 3] XISreadEvent 6.994 0.389 7.383 38.87
[ 4] XIScoord 3.032 0.360 3.392 17.86
[ 5] XISeditEventFits 6.575 0.713 7.288 38.37
(others) 0.014 0.013 0.027 0.14
--------------------------------------------------------------------------
TOTAL 17.087 1.907 18.994 100.00
-> xiscoord successful on ae802022010xi3_1_3x3n066.sff.infile,f,a,"ae802022010xi3_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 ae802022010xi3_1_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_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 / 422379 events )
... 10% ( 42237 / 422379 events )
... 20% ( 84474 / 422379 events )
Event... 100001 (100000)
... 30% ( 126711 / 422379 events )
... 40% ( 168948 / 422379 events )
Event... 200001 (200000)
... 50% ( 211185 / 422379 events )
... 60% ( 253422 / 422379 events )
... 70% ( 295659 / 422379 events )
Event... 300001 (300000)
... 80% ( 337896 / 422379 events )
... 90% ( 380133 / 422379 events )
Event... 400001 (400000)
... 100% ( 422379 / 422379 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 7088 1.68
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 17395 4.12
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 4840 1.15
B8 256 1PIX_FROM_SEGBOUNDARY 2855 0.68
B9 512 SCI_3rd_TRAILING_ROW 5349 1.27
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 19765 4.68
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 5797 1.37
B16 65536 CALMASK 56455 13.37
B17 131072 SEGBOUNDARY 9605 2.27
B18 262144 SCI_2nd_TRAILING_ROW 5288 1.25
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 12648 2.99
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 63548 15.05
B29 536870912 SCI_TRAILING_ROW 62005 14.68
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 116 0.03
### 0 CLEAN_ZERO 203072 48.08
--------------------------------------------------------------
+++ 4294967295 SUM 475826 112.65
::: 524287 SAFE(B0-18) 287924 68.17
>>> 4294967295 TOTAL 422379 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filemCS8iO-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 422381
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 422380/422381
[ 2] XISreadExp version 1.6
| OK: 422380/422380
[ 3] XISreadEvent version 2.7
| OK: 422379/422380 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 422379/422379
[ 5] XISeditEventFits version 2.1
| OK: 422379/422379
GET: 422379
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
422380 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
422380 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
422380 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
422379 : XISputPixelQuality:ENTRY
422379 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
422379 : XISeditEventFits:ENTRY
422379 : 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 16 16 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 422379 422379 SINGLE
XIS:RAWX 4 4 422379 422379 SINGLE
XIS:RAWY 4 4 422379 844758 SINGLE
XIS:ACTX 4 4 422379 844758 SINGLE
XIS:ACTY 4 4 422379 844758 SINGLE
XIS:DETX 4 4 422379 422379 SINGLE
XIS:DETY 4 4 422379 422379 SINGLE
XIS:FOCX 4 4 422379 422379 SINGLE
XIS:FOCY 4 4 422379 422379 SINGLE
XIS:X 4 4 422379 422379 SINGLE
XIS:Y 4 4 422379 422379 SINGLE
XIS:STATUS 4 4 844758 422379 SINGLE
XIS:PHAS 36 36 422379 422379 SINGLE
XIS:PHANOCTI 4 4 422379 422379 SINGLE
XIS:PHA 4 4 422379 422379 SINGLE
XIS:PI 4 4 422379 422379 SINGLE
XIS:GRADE 4 4 422379 422379 SINGLE
XIS:P_OUTER_MOST 4 4 422379 422379 SINGLE
XIS:SUM_OUTER_MOST 4 4 422379 422379 SINGLE
XIS:AEDATE 4 4 422379 422379 FAMILY
XIS:EXPTIME 4 4 422379 422379 FAMILY
XIS:EXPTIME_AETIME 8 8 422379 422379 SINGLE
XIS:S_TIME 8 8 422379 422379 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 422379 422379 FAMILY
XIS:EVENT_SEQ_NO 4 4 422379 422379 SINGLE
XIS:TIME 8 8 422379 844758 SINGLE
XIS:EXP_CENT_AETIME 8 8 422379 422379 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 422381 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 0.283 0.206 0.489 3.07
[ 2] XISreadExp 0.105 0.201 0.306 1.92
[ 3] XISreadEvent 6.752 0.298 7.050 44.32
[ 4] XISputPixelQuality 0.597 0.229 0.826 5.19
[ 5] XISeditEventFits 6.434 0.786 7.220 45.39
(others) 0.011 0.006 0.017 0.11
--------------------------------------------------------------------------
TOTAL 14.182 1.726 15.908 100.00
-> xisputpixelquality successful on ae802022010xi3_1_3x3n066.sff.infile,f,a,"ae802022010xi3_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,"ae802022010xi3_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 ae802022010xi3_1_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_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 30-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 68-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 'ae802022010xi3_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 ae802022010xi3_0.hk, S3_VDCHK18_CAL, nrows=4933
nvalid=4716 nrej=217 time=250319101.2 - 250478027.2 [s]
AE-temp: average=17.783 sigma=0.897 min=14.550 max=19.500 [degC]
Event... 1 (0)
... 0% ( 0 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 10% ( 42237 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 20% ( 84474 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 30% ( 126711 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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... 40% ( 168948 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 50% ( 211185 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 60% ( 253422 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 70% ( 295659 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 80% ( 337896 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 90% ( 380133 / 422379 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 400001 (400000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 100% ( 422379 / 422379 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileEyGPLZ-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 422381
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 422380/422381
[ 2] XISreadExp version 1.6
| OK: 422380/422380
[ 3] XISreadEvent version 2.7
| OK: 422379/422380 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 422379/422379
[ 5] XIStrailCorrection version 3.1
| OK: 422379/422379
[ 6] XISctiCorrection version 3.4
| OK: 422379/422379
[ 7] XISgrade version 3.3
| OK: 422379/422379
[ 8] XISpha2pi version 3.2
| OK: 422379/422379
[ 9] XISeditEventFits version 2.1
| OK: 422379/422379
GET: 422379
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
422380 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
422380 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
422380 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
422379 : XISpreparePHASCORR:ENTRY
422379 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
422379 : XIStrailCorrection:ENTRY
422379 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
422379 : XISctiCorrection:ENTRY
422379 : XISctiCorrection:OK
1 : XISgrade:BEGIN
422379 : XISgrade:ENTRY
422379 : XISgrade:OK
1 : XISpha2pi:BEGIN
422379 : XISpha2pi:ENTRY
422379 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
422379 : XISeditEventFits:ENTRY
422379 : 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 1689522 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 16 16 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 422379 2111895 SINGLE
XIS:RAWX 4 4 422379 1267137 SINGLE
XIS:RAWY 4 4 422379 844758 SINGLE
XIS:ACTX 4 4 422379 422379 SINGLE
XIS:ACTY 4 4 422379 1267137 SINGLE
XIS:DETX 4 4 422379 422379 SINGLE
XIS:DETY 4 4 422379 422379 SINGLE
XIS:FOCX 4 4 422379 422379 SINGLE
XIS:FOCY 4 4 422379 422379 SINGLE
XIS:X 4 4 422379 422379 SINGLE
XIS:Y 4 4 422379 422379 SINGLE
XIS:STATUS 4 4 422379 422379 SINGLE
XIS:PHAS 36 36 422379 844758 SINGLE
XIS:PHANOCTI 4 4 844758 422379 SINGLE
XIS:PHA 4 4 844758 422379 SINGLE
XIS:PI 4 4 844758 422379 SINGLE
XIS:GRADE 4 4 844758 422379 SINGLE
XIS:P_OUTER_MOST 4 4 422379 844758 SINGLE
XIS:SUM_OUTER_MOST 4 4 422379 844758 SINGLE
XIS:AEDATE 4 4 422379 422379 FAMILY
XIS:EXPTIME 4 4 422379 422379 FAMILY
XIS:EXPTIME_AETIME 8 8 422379 422379 SINGLE
XIS:S_TIME 8 8 422379 422379 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 422379 422379 FAMILY
XIS:EVENT_SEQ_NO 4 4 422379 422379 SINGLE
XIS:TIME 8 8 422379 2111895 SINGLE
XIS:EXP_CENT_AETIME 8 8 422379 422379 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 422381 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 844758 422379 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 422379 422379 SINGLE
XIS:PHASCORR 72 72 1267137 1267137 SINGLE
XIS:PHA:DOUBLE 8 8 422379 422379 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 0.350 0.242 0.592 1.31
[ 2] XISreadExp 0.103 0.207 0.310 0.69
[ 3] XISreadEvent 7.264 0.372 7.636 16.92
[ 4] XISpreparePHASCORR 0.353 0.214 0.567 1.26
[ 5] XIStrailCorrection 0.984 0.218 1.202 2.66
[ 6] XISctiCorrection 17.305 7.493 24.798 54.96
[ 7] XISgrade 1.457 0.228 1.685 3.73
[ 8] XISpha2pi 0.971 0.227 1.198 2.65
[ 9] XISeditEventFits 6.523 0.587 7.110 15.76
(others) 0.017 0.010 0.027 0.06
--------------------------------------------------------------------------
TOTAL 35.327 9.798 45.124 100.00
-> xispi successful on ae802022010xi3_1_3x3n066.sff.infile,f,a,"ae802022010xi3_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae802022010xi3_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 ae802022010xi3_1_3x3n066.sff
OUTFILE ae802022010xi3_1_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae802022010xi3_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 / 422379 events )
frame time jump, t=250323742.696 - 250325150.696 by 1408.000 s
frame time jump, t=250325286.696 - 250325550.696 by 264.000 s
frame time jump, t=250329862.695 - 250331118.695 by 1256.000 s
frame time jump, t=250331262.695 - 250331526.695 by 264.000 s
saturated frame, t=250332998.695 - 250333006.695 969 (854/1823) seg=1111
saturated frame, t=250333006.695 - 250333014.695 1352 (849/2201) seg=1111
saturated frame, t=250333014.695 - 250333022.695 1441 (849/2290) seg=1111
... 10% ( 42237 / 422379 events )
saturated frame, t=250333022.695 - 250333030.695 1441 (849/2290) seg=1111
saturated frame, t=250333030.695 - 250333038.695 1431 (850/2281) seg=1111
saturated frame, t=250333054.695 - 250333062.695 1621 (848/2469) seg=1111
saturated frame, t=250333062.695 - 250333070.695 664 (848/1512) seg=1111
frame time jump, t=250335974.695 - 250337102.695 by 1128.000 s
frame time jump, t=250337246.695 - 250337510.694 by 264.000 s
saturated frame, t=250338750.694 - 250338758.694 134 (856/990) seg=1111
... 20% ( 84474 / 422379 events )
frame time jump, t=250342118.694 - 250342910.694 by 792.000 s
frame time jump, t=250343046.694 - 250343310.694 by 264.000 s
... 30% ( 126711 / 422379 events )
saturated frame, t=250356014.692 - 250356022.692 459 (851/1310) seg=1111
... 40% ( 168948 / 422379 events )
... 50% ( 211185 / 422379 events )
saturated frame, t=250367518.691 - 250367526.691 276 (852/1128) seg=1111
... 60% ( 253422 / 422379 events )
... 70% ( 295659 / 422379 events )
... 80% ( 337896 / 422379 events )
frame time jump, t=250380086.690 - 250380950.690 by 864.000 s
frame time jump, t=250381094.690 - 250381358.690 by 264.000 s
frame time jump, t=250385846.689 - 250387086.690 by 1240.000 s
... 90% ( 380133 / 422379 events )
frame time jump, t=250387222.690 - 250387486.690 by 264.000 s
frame time jump, t=250391782.689 - 250393190.689 by 1408.000 s
frame time jump, t=250393334.689 - 250393598.689 by 264.000 s
... 100% ( 422379 / 422379 events )
XIScheckEventNo: GTI file 'ae802022010xi3_1_3x3n066.gti' created
N_FRAMES = 7920 / number of frames in the input event file
N_TESTED = 7920 / number of non-zero frames tested
N_PASSED = 7910 / number of frames passed the test
N_T_JUMP = 14 / number of frames detected time jump
N_SATURA = 10 / number of frames telemetry saturated
T_TESTED = 63360.000000 / exposure of non-zero frames tested
T_PASSED = 63280.000000 / exposure of frames passed the test
T_T_JUMP = 9943.999245 / loss of exposure due to time jump
T_SATURA = 80.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7921
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 7920/7921
[ 2] XISreadExp version 1.6
| OK: 7920/7920
[ 3] XISreadEvent version 2.7 <------- LOOP: 422379
| OK: 422379/430299 -------> SKIP: 7920
[ 4] XIScheckEventNo version 1.2
| OK: 422379/422379
GET: 422379
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
7920 : XISreadFrame:ENTRY
7920 : XISreadFrame:OK
1 : XISreadExp:BEGIN
7920 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
430299 : XISreadEvent:ENTRY
430298 : XISreadEvent:OK
7920 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
422379 : XIScheckEventNo:ENTRY
422379 : 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 16 16 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 7920 430299 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 7920 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 7920 430299 SINGLE
XIS:FRAMES:S_TIME 8 8 7920 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 7920 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 7920 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 7920 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 7920 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 7920 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 7920 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 7920 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 7920 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 7920 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 7920 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 7920 7920 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 7920 0 SINGLE
XIS:FRAMES:BIAS 16 16 7920 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 7920 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 7920 0 SINGLE
XIS:FRAMES:AEDATE 4 4 7920 430299 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 7920 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 7920 422379 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 7920 7920 SINGLE
XIS:FRAMES:TIME 8 8 7920 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 422379 422379 SINGLE
XIS:RAWX 4 4 422379 0 SINGLE
XIS:RAWY 4 4 422379 0 SINGLE
XIS:ACTX 4 4 422379 0 SINGLE
XIS:ACTY 4 4 422379 0 SINGLE
XIS:DETX 4 4 422379 0 SINGLE
XIS:DETY 4 4 422379 0 SINGLE
XIS:FOCX 4 4 422379 0 SINGLE
XIS:FOCY 4 4 422379 0 SINGLE
XIS:X 4 4 422379 0 SINGLE
XIS:Y 4 4 422379 0 SINGLE
XIS:STATUS 4 4 422379 0 SINGLE
XIS:PHAS 36 36 422379 0 SINGLE
XIS:PHANOCTI 4 4 422379 0 SINGLE
XIS:PHA 4 4 422379 0 SINGLE
XIS:PI 4 4 422379 0 SINGLE
XIS:GRADE 4 4 422379 0 SINGLE
XIS:P_OUTER_MOST 4 4 422379 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 422379 0 SINGLE
XIS:AEDATE 4 4 422379 430298 FAMILY
XIS:EXPTIME 4 4 422379 430298 FAMILY
XIS:EXPTIME_AETIME 8 8 422379 0 SINGLE
XIS:S_TIME 8 8 422379 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 422379 430298 FAMILY
XIS:EVENT_SEQ_NO 4 4 422379 430298 SINGLE
XIS:TIME 8 8 422379 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 422379 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 1.915 0.022 1.937 15.38
[ 2] XISreadExp 0.008 0.005 0.013 0.10
[ 3] XISreadEvent 9.895 0.277 10.172 80.76
[ 4] XIScheckEventNo 0.227 0.228 0.455 3.61
(others) 0.013 0.006 0.019 0.15
--------------------------------------------------------------------------
TOTAL 12.058 0.538 12.596 100.00
-> xisgtigen successful on ae802022010xi3_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 ae802022010xi3_1_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi3_1_5x5n066.fff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_1_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_1_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae802022010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 74384 events )
... 10% ( 7438 / 74384 events )
... 20% ( 14876 / 74384 events )
... 30% ( 22314 / 74384 events )
... 40% ( 29752 / 74384 events )
... 50% ( 37190 / 74384 events )
... 60% ( 44628 / 74384 events )
... 70% ( 52066 / 74384 events )
... 80% ( 59504 / 74384 events )
... 90% ( 66942 / 74384 events )
... 100% ( 74384 / 74384 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 250319126.696575 / time start
TSTOP = 250406742.687727 / time stop
TELAPASE = 87615.991152 / elapsed time = TSTOP - TSTART
ONTIME = 10439.998536 / on time = sum of all GTIs
LIVETIME = 10439.998536 / on-source time corrected for CCD exposure
EXPOSURE = 10439.998536 / exposure time
xisEventFitsUtil: rename ./fileBugGFr-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 74386
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 74385/74386
[ 2] XISreadExp version 1.6
| OK: 74385/74385
[ 3] XISreadEvent version 2.7
| OK: 74384/74385 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 74384/74384
[ 5] XISeditEventFits version 2.1
| OK: 74384/74384
GET: 74384
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
74385 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
74385 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
74385 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
74384 : XIStime:ENTRY
74384 : XIStime:OK
1 : XISeditEventFits:BEGIN
74384 : XISeditEventFits:ENTRY
74384 : 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 16 16 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 74384 74384 SINGLE
XIS:RAWX 4 4 74384 74384 SINGLE
XIS:RAWY 4 4 74384 74384 SINGLE
XIS:ACTX 4 4 74384 74384 SINGLE
XIS:ACTY 4 4 74384 74384 SINGLE
XIS:DETX 4 4 74384 74384 SINGLE
XIS:DETY 4 4 74384 74384 SINGLE
XIS:FOCX 4 4 74384 74384 SINGLE
XIS:FOCY 4 4 74384 74384 SINGLE
XIS:X 4 4 74384 74384 SINGLE
XIS:Y 4 4 74384 74384 SINGLE
XIS:STATUS 4 4 74384 74384 SINGLE
XIS:PHAS 100 100 74384 74384 SINGLE
XIS:PHANOCTI 4 4 74384 74384 SINGLE
XIS:PHA 4 4 74384 74384 SINGLE
XIS:PI 4 4 74384 74384 SINGLE
XIS:GRADE 4 4 74384 74384 SINGLE
XIS:AEDATE 4 4 148768 74384 FAMILY
XIS:EXPTIME 4 4 74384 148768 FAMILY
XIS:EXPTIME_AETIME 8 8 148768 74384 SINGLE
XIS:S_TIME 8 8 74384 148768 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74384 148768 FAMILY
XIS:EVENT_SEQ_NO 4 4 74384 74384 SINGLE
XIS:TIME 8 8 148768 74384 SINGLE
XIS:EXP_CENT_AETIME 8 8 148768 74384 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 74386 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 0.047 0.051 0.098 3.25
[ 2] XISreadExp 0.019 0.036 0.055 1.82
[ 3] XISreadEvent 1.214 0.091 1.305 43.28
[ 4] XIStime 0.265 0.055 0.320 10.61
[ 5] XISeditEventFits 1.090 0.129 1.219 40.43
(others) 0.014 0.004 0.018 0.60
--------------------------------------------------------------------------
TOTAL 2.649 0.366 3.015 100.00
-> xistime successful on ae802022010xi3_1_5x5n066.sff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_1_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_1_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 = 190.68320 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 746.47 / 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 = 3.05550 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 724.60 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 74384 events )
... 10% ( 7438 / 74384 events )
... 20% ( 14876 / 74384 events )
... 30% ( 22314 / 74384 events )
... 40% ( 29752 / 74384 events )
... 50% ( 37190 / 74384 events )
... 60% ( 44628 / 74384 events )
... 70% ( 52066 / 74384 events )
... 80% ( 59504 / 74384 events )
... 90% ( 66942 / 74384 events )
... 100% ( 74384 / 74384 events )
xisEventFitsUtil: rename ./file42cqx8-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 74386
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 74385/74386
[ 2] XISreadExp version 1.6
| OK: 74385/74385
[ 3] XISreadEvent version 2.7
| OK: 74384/74385 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 74384/74384
[ 5] XISeditEventFits version 2.1
| OK: 74384/74384
GET: 74384
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
74385 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
74385 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
74385 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
74384 : XIScoord:ENTRY
74384 : XIScoord:OK
1 : XISeditEventFits:BEGIN
74384 : XISeditEventFits:ENTRY
74384 : 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 16 16 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 74384 148768 SINGLE
XIS:RAWX 4 4 74384 148768 SINGLE
XIS:RAWY 4 4 74384 148768 SINGLE
XIS:ACTX 4 4 148768 74384 SINGLE
XIS:ACTY 4 4 148768 74384 SINGLE
XIS:DETX 4 4 148768 74384 SINGLE
XIS:DETY 4 4 148768 74384 SINGLE
XIS:FOCX 4 4 148768 74384 SINGLE
XIS:FOCY 4 4 148768 74384 SINGLE
XIS:X 4 4 148768 74384 SINGLE
XIS:Y 4 4 148768 74384 SINGLE
XIS:STATUS 4 4 74384 74384 SINGLE
XIS:PHAS 100 100 74384 74384 SINGLE
XIS:PHANOCTI 4 4 74384 74384 SINGLE
XIS:PHA 4 4 74384 74384 SINGLE
XIS:PI 4 4 74384 74384 SINGLE
XIS:GRADE 4 4 74384 74384 SINGLE
XIS:AEDATE 4 4 74384 74384 FAMILY
XIS:EXPTIME 4 4 74384 74384 FAMILY
XIS:EXPTIME_AETIME 8 8 74384 74384 SINGLE
XIS:S_TIME 8 8 74384 74384 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74384 74384 FAMILY
XIS:EVENT_SEQ_NO 4 4 74384 74384 SINGLE
XIS:TIME 8 8 74384 148768 SINGLE
XIS:EXP_CENT_AETIME 8 8 74384 74384 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 74386 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 0.068 0.039 0.107 3.24
[ 2] XISreadExp 0.018 0.042 0.060 1.82
[ 3] XISreadEvent 1.110 0.083 1.193 36.12
[ 4] XIScoord 0.578 0.100 0.678 20.53
[ 5] XISeditEventFits 1.115 0.126 1.241 37.57
(others) 0.017 0.007 0.024 0.73
--------------------------------------------------------------------------
TOTAL 2.906 0.397 3.302 100.00
-> xiscoord successful on ae802022010xi3_1_5x5n066.sff.infile,f,a,"ae802022010xi3_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 ae802022010xi3_1_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_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 / 74384 events )
... 10% ( 7438 / 74384 events )
... 20% ( 14876 / 74384 events )
... 30% ( 22314 / 74384 events )
... 40% ( 29752 / 74384 events )
... 50% ( 37190 / 74384 events )
... 60% ( 44628 / 74384 events )
... 70% ( 52066 / 74384 events )
... 80% ( 59504 / 74384 events )
... 90% ( 66942 / 74384 events )
... 100% ( 74384 / 74384 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 1143 1.54
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 3138 4.22
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 712 0.96
B8 256 1PIX_FROM_SEGBOUNDARY 461 0.62
B9 512 SCI_3rd_TRAILING_ROW 707 0.95
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 3519 4.73
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 734 0.99
B16 65536 CALMASK 7812 10.50
B17 131072 SEGBOUNDARY 1435 1.93
B18 262144 SCI_2nd_TRAILING_ROW 695 0.93
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 2024 2.72
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 17339 23.31
B29 536870912 SCI_TRAILING_ROW 16947 22.78
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 36 0.05
### 0 CLEAN_ZERO 27576 37.07
--------------------------------------------------------------
+++ 4294967295 SUM 84278 113.30
::: 524287 SAFE(B0-18) 38905 52.30
>>> 4294967295 TOTAL 74384 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./file2GhPR9-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 74386
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 74385/74386
[ 2] XISreadExp version 1.6
| OK: 74385/74385
[ 3] XISreadEvent version 2.7
| OK: 74384/74385 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 74384/74384
[ 5] XISeditEventFits version 2.1
| OK: 74384/74384
GET: 74384
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
74385 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
74385 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
74385 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
74384 : XISputPixelQuality:ENTRY
74384 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
74384 : XISeditEventFits:ENTRY
74384 : 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 16 16 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 74384 74384 SINGLE
XIS:RAWX 4 4 74384 74384 SINGLE
XIS:RAWY 4 4 74384 148768 SINGLE
XIS:ACTX 4 4 74384 148768 SINGLE
XIS:ACTY 4 4 74384 148768 SINGLE
XIS:DETX 4 4 74384 74384 SINGLE
XIS:DETY 4 4 74384 74384 SINGLE
XIS:FOCX 4 4 74384 74384 SINGLE
XIS:FOCY 4 4 74384 74384 SINGLE
XIS:X 4 4 74384 74384 SINGLE
XIS:Y 4 4 74384 74384 SINGLE
XIS:STATUS 4 4 148768 74384 SINGLE
XIS:PHAS 100 100 74384 74384 SINGLE
XIS:PHANOCTI 4 4 74384 74384 SINGLE
XIS:PHA 4 4 74384 74384 SINGLE
XIS:PI 4 4 74384 74384 SINGLE
XIS:GRADE 4 4 74384 74384 SINGLE
XIS:AEDATE 4 4 74384 74384 FAMILY
XIS:EXPTIME 4 4 74384 74384 FAMILY
XIS:EXPTIME_AETIME 8 8 74384 74384 SINGLE
XIS:S_TIME 8 8 74384 74384 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74384 74384 FAMILY
XIS:EVENT_SEQ_NO 4 4 74384 74384 SINGLE
XIS:TIME 8 8 74384 148768 SINGLE
XIS:EXP_CENT_AETIME 8 8 74384 74384 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 74386 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 0.051 0.031 0.082 2.95
[ 2] XISreadExp 0.023 0.027 0.050 1.80
[ 3] XISreadEvent 1.149 0.064 1.213 43.60
[ 4] XISputPixelQuality 0.162 0.051 0.213 7.66
[ 5] XISeditEventFits 1.071 0.136 1.207 43.39
(others) 0.012 0.005 0.017 0.61
--------------------------------------------------------------------------
TOTAL 2.468 0.314 2.782 100.00
-> xisputpixelquality successful on ae802022010xi3_1_5x5n066.sff.infile,f,a,"ae802022010xi3_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,"ae802022010xi3_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 ae802022010xi3_1_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_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 30-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 68-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 'ae802022010xi3_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 ae802022010xi3_0.hk, S3_VDCHK18_CAL, nrows=4933
nvalid=4716 nrej=217 time=250319101.2 - 250478027.2 [s]
AE-temp: average=17.783 sigma=0.897 min=14.550 max=19.500 [degC]
Event... 1 (0)
... 0% ( 0 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 10% ( 7438 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 20% ( 14876 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 30% ( 22314 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 40% ( 29752 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 50% ( 37190 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 60% ( 44628 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 70% ( 52066 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 80% ( 59504 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 90% ( 66942 / 74384 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 100% ( 74384 / 74384 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./files7lEfu-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 74386
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 74385/74386
[ 2] XISreadExp version 1.6
| OK: 74385/74385
[ 3] XISreadEvent version 2.7
| OK: 74384/74385 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 74384/74384
[ 5] XIStrailCorrection version 3.1
| OK: 74384/74384
[ 6] XISctiCorrection version 3.4
| OK: 74384/74384
[ 7] XISgrade version 3.3
| OK: 74384/74384
[ 8] XISpha2pi version 3.2
| OK: 74384/74384
[ 9] XISeditEventFits version 2.1
| OK: 74384/74384
GET: 74384
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
74385 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
74385 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
74385 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
74384 : XISpreparePHASCORR:ENTRY
74384 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
74384 : XIStrailCorrection:ENTRY
74384 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
74384 : XISctiCorrection:ENTRY
74384 : XISctiCorrection:OK
1 : XISgrade:BEGIN
74384 : XISgrade:ENTRY
74384 : XISgrade:OK
1 : XISpha2pi:BEGIN
74384 : XISpha2pi:ENTRY
74384 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
74384 : XISeditEventFits:ENTRY
74384 : 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 297542 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 16 16 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 74384 371920 SINGLE
XIS:RAWX 4 4 74384 223152 SINGLE
XIS:RAWY 4 4 74384 148768 SINGLE
XIS:ACTX 4 4 74384 74384 SINGLE
XIS:ACTY 4 4 74384 223152 SINGLE
XIS:DETX 4 4 74384 74384 SINGLE
XIS:DETY 4 4 74384 74384 SINGLE
XIS:FOCX 4 4 74384 74384 SINGLE
XIS:FOCY 4 4 74384 74384 SINGLE
XIS:X 4 4 74384 74384 SINGLE
XIS:Y 4 4 74384 74384 SINGLE
XIS:STATUS 4 4 74384 74384 SINGLE
XIS:PHAS 100 100 74384 148768 SINGLE
XIS:PHANOCTI 4 4 148768 74384 SINGLE
XIS:PHA 4 4 148768 74384 SINGLE
XIS:PI 4 4 148768 74384 SINGLE
XIS:GRADE 4 4 148768 74384 SINGLE
XIS:AEDATE 4 4 74384 74384 FAMILY
XIS:EXPTIME 4 4 74384 74384 FAMILY
XIS:EXPTIME_AETIME 8 8 74384 74384 SINGLE
XIS:S_TIME 8 8 74384 74384 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74384 74384 FAMILY
XIS:EVENT_SEQ_NO 4 4 74384 74384 SINGLE
XIS:TIME 8 8 74384 371920 SINGLE
XIS:EXP_CENT_AETIME 8 8 74384 74384 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 74386 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 148768 74384 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 74384 74384 SINGLE
XIS:PHASCORR 200 200 223152 223152 SINGLE
XIS:PHA:DOUBLE 8 8 74384 74384 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 0.071 0.046 0.117 1.31
[ 2] XISreadExp 0.014 0.041 0.055 0.62
[ 3] XISreadEvent 1.200 0.063 1.263 14.15
[ 4] XISpreparePHASCORR 0.083 0.039 0.122 1.37
[ 5] XIStrailCorrection 0.165 0.042 0.207 2.32
[ 6] XISctiCorrection 4.101 1.217 5.318 59.60
[ 7] XISgrade 0.248 0.033 0.281 3.15
[ 8] XISpha2pi 0.199 0.041 0.240 2.69
[ 9] XISeditEventFits 1.185 0.110 1.295 14.51
(others) 0.020 0.006 0.026 0.29
--------------------------------------------------------------------------
TOTAL 7.286 1.638 8.924 100.00
-> xispi successful on ae802022010xi3_1_5x5n066.sff.infile,f,a,"ae802022010xi3_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae802022010xi3_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 ae802022010xi3_1_5x5n066.sff
OUTFILE ae802022010xi3_1_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae802022010xi3_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 / 74384 events )
frame time jump, t=250319270.697 - 250319534.696 by 264.000 s
... 10% ( 7438 / 74384 events )
frame time jump, t=250321654.696 - 250394958.689 by 73303.993 s
... 20% ( 14876 / 74384 events )
saturated frame, t=250396278.688 - 250396286.688 1085 (894/1979) seg=1111
saturated frame, t=250396286.688 - 250396294.688 1397 (894/2291) seg=1111
saturated frame, t=250396294.688 - 250396302.688 1153 (892/2045) seg=1111
saturated frame, t=250396302.688 - 250396310.688 1177 (892/2069) seg=1111
... 30% ( 22314 / 74384 events )
saturated frame, t=250396310.688 - 250396318.688 1174 (894/2068) seg=1111
saturated frame, t=250396318.688 - 250396326.688 335 (896/1231) seg=1111
saturated frame, t=250396326.688 - 250396334.688 1091 (894/1985) seg=1111
saturated frame, t=250396334.688 - 250396342.688 15 (903/918) seg=1111
... 40% ( 29752 / 74384 events )
frame time jump, t=250397742.689 - 250399310.689 by 1568.000 s
frame time jump, t=250399454.689 - 250399718.689 by 264.000 s
... 50% ( 37190 / 74384 events )
... 60% ( 44628 / 74384 events )
saturated frame, t=250402030.688 - 250402038.688 624 (902/1526) seg=1111
saturated frame, t=250402038.688 - 250402046.688 922 (897/1819) seg=1111
saturated frame, t=250402046.688 - 250402054.688 1064 (896/1960) seg=1111
saturated frame, t=250402054.688 - 250402062.688 1020 (897/1917) seg=1111
... 70% ( 52066 / 74384 events )
saturated frame, t=250402062.688 - 250402070.688 980 (897/1877) seg=1111
saturated frame, t=250402070.688 - 250402078.688 767 (897/1664) seg=1111
saturated frame, t=250402078.688 - 250402086.688 754 (896/1650) seg=1111
saturated frame, t=250402086.688 - 250402094.688 680 (896/1576) seg=1111
saturated frame, t=250402094.688 - 250402102.688 691 (893/1584) seg=1111
saturated frame, t=250402102.688 - 250402110.688 633 (892/1525) seg=1111
saturated frame, t=250402110.688 - 250402118.688 709 (892/1601) seg=1111
... 80% ( 59504 / 74384 events )
... 90% ( 66942 / 74384 events )
frame time jump, t=250403934.688 - 250405446.688 by 1512.000 s
frame time jump, t=250405582.688 - 250405846.688 by 264.000 s
... 100% ( 74384 / 74384 events )
XIScheckEventNo: GTI file 'ae802022010xi3_1_5x5n066.gti' created
N_FRAMES = 1305 / number of frames in the input event file
N_TESTED = 1305 / number of non-zero frames tested
N_PASSED = 1286 / number of frames passed the test
N_T_JUMP = 6 / number of frames detected time jump
N_SATURA = 19 / number of frames telemetry saturated
T_TESTED = 10440.000000 / exposure of non-zero frames tested
T_PASSED = 10288.000000 / exposure of frames passed the test
T_T_JUMP = 77175.992616 / loss of exposure due to time jump
T_SATURA = 152.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1306
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1305/1306
[ 2] XISreadExp version 1.6
| OK: 1305/1305
[ 3] XISreadEvent version 2.7 <------- LOOP: 74384
| OK: 74384/75689 -------> SKIP: 1305
[ 4] XIScheckEventNo version 1.2
| OK: 74384/74384
GET: 74384
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1305 : XISreadFrame:ENTRY
1305 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1305 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
75689 : XISreadEvent:ENTRY
75688 : XISreadEvent:OK
1305 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
74384 : XIScheckEventNo:ENTRY
74384 : 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 16 16 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 1305 75689 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1305 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1305 75689 SINGLE
XIS:FRAMES:S_TIME 8 8 1305 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1305 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1305 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1305 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1305 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1305 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1305 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1305 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1305 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1305 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1305 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1305 1305 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1305 0 SINGLE
XIS:FRAMES:BIAS 16 16 1305 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1305 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1305 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1305 75689 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1305 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1305 74384 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1305 1305 SINGLE
XIS:FRAMES:TIME 8 8 1305 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 74384 74384 SINGLE
XIS:RAWX 4 4 74384 0 SINGLE
XIS:RAWY 4 4 74384 0 SINGLE
XIS:ACTX 4 4 74384 0 SINGLE
XIS:ACTY 4 4 74384 0 SINGLE
XIS:DETX 4 4 74384 0 SINGLE
XIS:DETY 4 4 74384 0 SINGLE
XIS:FOCX 4 4 74384 0 SINGLE
XIS:FOCY 4 4 74384 0 SINGLE
XIS:X 4 4 74384 0 SINGLE
XIS:Y 4 4 74384 0 SINGLE
XIS:STATUS 4 4 74384 0 SINGLE
XIS:PHAS 100 100 74384 0 SINGLE
XIS:PHANOCTI 4 4 74384 0 SINGLE
XIS:PHA 4 4 74384 0 SINGLE
XIS:PI 4 4 74384 0 SINGLE
XIS:GRADE 4 4 74384 0 SINGLE
XIS:AEDATE 4 4 74384 75688 FAMILY
XIS:EXPTIME 4 4 74384 75688 FAMILY
XIS:EXPTIME_AETIME 8 8 74384 0 SINGLE
XIS:S_TIME 8 8 74384 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 74384 75688 FAMILY
XIS:EVENT_SEQ_NO 4 4 74384 75688 SINGLE
XIS:TIME 8 8 74384 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 74384 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 0.318 0.004 0.322 15.85
[ 2] XISreadExp 0.002 0.002 0.004 0.20
[ 3] XISreadEvent 1.580 0.037 1.617 79.62
[ 4] XIScheckEventNo 0.029 0.039 0.068 3.35
(others) 0.013 0.007 0.020 0.98
--------------------------------------------------------------------------
TOTAL 1.942 0.089 2.031 100.00
-> xisgtigen successful on ae802022010xi3_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 ae802022010xi3_2_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi3_2_3x3n066.fff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_2_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_2_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae802022010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 255002 events )
... 10% ( 25500 / 255002 events )
... 20% ( 51000 / 255002 events )
... 30% ( 76500 / 255002 events )
Event... 100001 (100000)
... 40% ( 102000 / 255002 events )
... 50% ( 127500 / 255002 events )
... 60% ( 153000 / 255002 events )
... 70% ( 178500 / 255002 events )
Event... 200001 (200000)
... 80% ( 204000 / 255002 events )
... 90% ( 229500 / 255002 events )
... 100% ( 255002 / 255002 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 250414054.687174 / time start
TSTOP = 250476822.676144 / time stop
TELAPASE = 62767.988970 / elapsed time = TSTOP - TSTART
ONTIME = 36879.990021 / on time = sum of all GTIs
LIVETIME = 36879.990021 / on-source time corrected for CCD exposure
EXPOSURE = 36879.990021 / exposure time
xisEventFitsUtil: rename ./file1apJOr-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 255004
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 255003/255004
[ 2] XISreadExp version 1.6
| OK: 255003/255003
[ 3] XISreadEvent version 2.7
| OK: 255002/255003 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 255002/255002
[ 5] XISeditEventFits version 2.1
| OK: 255002/255002
GET: 255002
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
255003 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
255003 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
255003 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
255002 : XIStime:ENTRY
255002 : XIStime:OK
1 : XISeditEventFits:BEGIN
255002 : XISeditEventFits:ENTRY
255002 : 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 16 16 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 255002 255002 SINGLE
XIS:RAWX 4 4 255002 255002 SINGLE
XIS:RAWY 4 4 255002 255002 SINGLE
XIS:ACTX 4 4 255002 255002 SINGLE
XIS:ACTY 4 4 255002 255002 SINGLE
XIS:DETX 4 4 255002 255002 SINGLE
XIS:DETY 4 4 255002 255002 SINGLE
XIS:FOCX 4 4 255002 255002 SINGLE
XIS:FOCY 4 4 255002 255002 SINGLE
XIS:X 4 4 255002 255002 SINGLE
XIS:Y 4 4 255002 255002 SINGLE
XIS:STATUS 4 4 255002 255002 SINGLE
XIS:PHAS 36 36 255002 255002 SINGLE
XIS:PHANOCTI 4 4 255002 255002 SINGLE
XIS:PHA 4 4 255002 255002 SINGLE
XIS:PI 4 4 255002 255002 SINGLE
XIS:GRADE 4 4 255002 255002 SINGLE
XIS:P_OUTER_MOST 4 4 255002 255002 SINGLE
XIS:SUM_OUTER_MOST 4 4 255002 255002 SINGLE
XIS:AEDATE 4 4 510004 255002 FAMILY
XIS:EXPTIME 4 4 255002 510004 FAMILY
XIS:EXPTIME_AETIME 8 8 510004 255002 SINGLE
XIS:S_TIME 8 8 255002 510004 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 255002 510004 FAMILY
XIS:EVENT_SEQ_NO 4 4 255002 255002 SINGLE
XIS:TIME 8 8 510004 255002 SINGLE
XIS:EXP_CENT_AETIME 8 8 510004 255002 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 255004 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 0.152 0.136 0.288 2.89
[ 2] XISreadExp 0.062 0.106 0.168 1.69
[ 3] XISreadEvent 4.306 0.282 4.588 46.10
[ 4] XIStime 0.563 0.144 0.707 7.10
[ 5] XISeditEventFits 3.836 0.347 4.183 42.03
(others) 0.011 0.007 0.018 0.18
--------------------------------------------------------------------------
TOTAL 8.931 1.022 9.952 100.00
-> xistime successful on ae802022010xi3_2_3x3n066.sff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_2_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_2_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 = 190.68320 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 746.47 / 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 = 3.05550 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 724.60 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 255002 events )
... 10% ( 25500 / 255002 events )
... 20% ( 51000 / 255002 events )
... 30% ( 76500 / 255002 events )
Event... 100001 (100000)
... 40% ( 102000 / 255002 events )
... 50% ( 127500 / 255002 events )
... 60% ( 153000 / 255002 events )
... 70% ( 178500 / 255002 events )
Event... 200001 (200000)
... 80% ( 204000 / 255002 events )
... 90% ( 229500 / 255002 events )
... 100% ( 255002 / 255002 events )
xisEventFitsUtil: rename ./file7VgUOZ-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 255004
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 255003/255004
[ 2] XISreadExp version 1.6
| OK: 255003/255003
[ 3] XISreadEvent version 2.7
| OK: 255002/255003 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 255002/255002
[ 5] XISeditEventFits version 2.1
| OK: 255002/255002
GET: 255002
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
255003 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
255003 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
255003 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
255002 : XIScoord:ENTRY
255002 : XIScoord:OK
1 : XISeditEventFits:BEGIN
255002 : XISeditEventFits:ENTRY
255002 : 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 16 16 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 255002 510004 SINGLE
XIS:RAWX 4 4 255002 510004 SINGLE
XIS:RAWY 4 4 255002 510004 SINGLE
XIS:ACTX 4 4 510004 255002 SINGLE
XIS:ACTY 4 4 510004 255002 SINGLE
XIS:DETX 4 4 510004 255002 SINGLE
XIS:DETY 4 4 510004 255002 SINGLE
XIS:FOCX 4 4 510004 255002 SINGLE
XIS:FOCY 4 4 510004 255002 SINGLE
XIS:X 4 4 510004 255002 SINGLE
XIS:Y 4 4 510004 255002 SINGLE
XIS:STATUS 4 4 255002 255002 SINGLE
XIS:PHAS 36 36 255002 255002 SINGLE
XIS:PHANOCTI 4 4 255002 255002 SINGLE
XIS:PHA 4 4 255002 255002 SINGLE
XIS:PI 4 4 255002 255002 SINGLE
XIS:GRADE 4 4 255002 255002 SINGLE
XIS:P_OUTER_MOST 4 4 255002 255002 SINGLE
XIS:SUM_OUTER_MOST 4 4 255002 255002 SINGLE
XIS:AEDATE 4 4 255002 255002 FAMILY
XIS:EXPTIME 4 4 255002 255002 FAMILY
XIS:EXPTIME_AETIME 8 8 255002 255002 SINGLE
XIS:S_TIME 8 8 255002 255002 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 255002 255002 FAMILY
XIS:EVENT_SEQ_NO 4 4 255002 255002 SINGLE
XIS:TIME 8 8 255002 510004 SINGLE
XIS:EXP_CENT_AETIME 8 8 255002 255002 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 255004 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 0.194 0.133 0.327 2.82
[ 2] XISreadExp 0.082 0.132 0.214 1.84
[ 3] XISreadEvent 4.284 0.239 4.523 38.96
[ 4] XIScoord 1.820 0.261 2.081 17.92
[ 5] XISeditEventFits 4.020 0.385 4.405 37.95
(others) 0.002 0.057 0.059 0.51
--------------------------------------------------------------------------
TOTAL 10.402 1.207 11.609 100.00
-> xiscoord successful on ae802022010xi3_2_3x3n066.sff.infile,f,a,"ae802022010xi3_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 ae802022010xi3_2_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_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 / 255002 events )
... 10% ( 25500 / 255002 events )
... 20% ( 51000 / 255002 events )
... 30% ( 76500 / 255002 events )
Event... 100001 (100000)
... 40% ( 102000 / 255002 events )
... 50% ( 127500 / 255002 events )
... 60% ( 153000 / 255002 events )
... 70% ( 178500 / 255002 events )
Event... 200001 (200000)
... 80% ( 204000 / 255002 events )
... 90% ( 229500 / 255002 events )
... 100% ( 255002 / 255002 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 4330 1.70
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 10554 4.14
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 2923 1.15
B8 256 1PIX_FROM_SEGBOUNDARY 1727 0.68
B9 512 SCI_3rd_TRAILING_ROW 3415 1.34
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 11495 4.51
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 3569 1.40
B16 65536 CALMASK 37059 14.53
B17 131072 SEGBOUNDARY 6178 2.42
B18 262144 SCI_2nd_TRAILING_ROW 3469 1.36
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 7127 2.79
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 33629 13.19
B29 536870912 SCI_TRAILING_ROW 32951 12.92
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 91 0.04
### 0 CLEAN_ZERO 127381 49.95
--------------------------------------------------------------
+++ 4294967295 SUM 285898 112.12
::: 524287 SAFE(B0-18) 183221 71.85
>>> 4294967295 TOTAL 255002 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./file8oYTeK-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 255004
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 255003/255004
[ 2] XISreadExp version 1.6
| OK: 255003/255003
[ 3] XISreadEvent version 2.7
| OK: 255002/255003 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 255002/255002
[ 5] XISeditEventFits version 2.1
| OK: 255002/255002
GET: 255002
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
255003 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
255003 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
255003 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
255002 : XISputPixelQuality:ENTRY
255002 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
255002 : XISeditEventFits:ENTRY
255002 : 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 16 16 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 255002 255002 SINGLE
XIS:RAWX 4 4 255002 255002 SINGLE
XIS:RAWY 4 4 255002 510004 SINGLE
XIS:ACTX 4 4 255002 510004 SINGLE
XIS:ACTY 4 4 255002 510004 SINGLE
XIS:DETX 4 4 255002 255002 SINGLE
XIS:DETY 4 4 255002 255002 SINGLE
XIS:FOCX 4 4 255002 255002 SINGLE
XIS:FOCY 4 4 255002 255002 SINGLE
XIS:X 4 4 255002 255002 SINGLE
XIS:Y 4 4 255002 255002 SINGLE
XIS:STATUS 4 4 510004 255002 SINGLE
XIS:PHAS 36 36 255002 255002 SINGLE
XIS:PHANOCTI 4 4 255002 255002 SINGLE
XIS:PHA 4 4 255002 255002 SINGLE
XIS:PI 4 4 255002 255002 SINGLE
XIS:GRADE 4 4 255002 255002 SINGLE
XIS:P_OUTER_MOST 4 4 255002 255002 SINGLE
XIS:SUM_OUTER_MOST 4 4 255002 255002 SINGLE
XIS:AEDATE 4 4 255002 255002 FAMILY
XIS:EXPTIME 4 4 255002 255002 FAMILY
XIS:EXPTIME_AETIME 8 8 255002 255002 SINGLE
XIS:S_TIME 8 8 255002 255002 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 255002 255002 FAMILY
XIS:EVENT_SEQ_NO 4 4 255002 255002 SINGLE
XIS:TIME 8 8 255002 510004 SINGLE
XIS:EXP_CENT_AETIME 8 8 255002 255002 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 255004 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 0.173 0.128 0.301 3.12
[ 2] XISreadExp 0.073 0.145 0.218 2.26
[ 3] XISreadEvent 4.032 0.175 4.207 43.62
[ 4] XISputPixelQuality 0.370 0.125 0.495 5.13
[ 5] XISeditEventFits 3.977 0.427 4.404 45.66
(others) 0.013 0.007 0.020 0.21
--------------------------------------------------------------------------
TOTAL 8.639 1.007 9.646 100.00
-> xisputpixelquality successful on ae802022010xi3_2_3x3n066.sff.infile,f,a,"ae802022010xi3_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,"ae802022010xi3_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 ae802022010xi3_2_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_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 30-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 68-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 'ae802022010xi3_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 ae802022010xi3_0.hk, S3_VDCHK18_CAL, nrows=4933
nvalid=4716 nrej=217 time=250319101.2 - 250478027.2 [s]
AE-temp: average=17.783 sigma=0.897 min=14.550 max=19.500 [degC]
Event... 1 (0)
... 0% ( 0 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 10% ( 25500 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 20% ( 51000 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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... 30% ( 76500 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 40% ( 102000 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
... 50% ( 127500 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 60% ( 153000 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 70% ( 178500 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 80% ( 204000 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 90% ( 229500 / 255002 events )
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
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reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 100% ( 255002 / 255002 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filek4Qsyu-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 255004
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 255003/255004
[ 2] XISreadExp version 1.6
| OK: 255003/255003
[ 3] XISreadEvent version 2.7
| OK: 255002/255003 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 255002/255002
[ 5] XIStrailCorrection version 3.1
| OK: 255002/255002
[ 6] XISctiCorrection version 3.4
| OK: 255002/255002
[ 7] XISgrade version 3.3
| OK: 255002/255002
[ 8] XISpha2pi version 3.2
| OK: 255002/255002
[ 9] XISeditEventFits version 2.1
| OK: 255002/255002
GET: 255002
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
255003 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
255003 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
255003 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
255002 : XISpreparePHASCORR:ENTRY
255002 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
255002 : XIStrailCorrection:ENTRY
255002 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
255002 : XISctiCorrection:ENTRY
255002 : XISctiCorrection:OK
1 : XISgrade:BEGIN
255002 : XISgrade:ENTRY
255002 : XISgrade:OK
1 : XISpha2pi:BEGIN
255002 : XISpha2pi:ENTRY
255002 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
255002 : XISeditEventFits:ENTRY
255002 : 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 1020014 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 16 16 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 255002 1275010 SINGLE
XIS:RAWX 4 4 255002 765006 SINGLE
XIS:RAWY 4 4 255002 510004 SINGLE
XIS:ACTX 4 4 255002 255002 SINGLE
XIS:ACTY 4 4 255002 765006 SINGLE
XIS:DETX 4 4 255002 255002 SINGLE
XIS:DETY 4 4 255002 255002 SINGLE
XIS:FOCX 4 4 255002 255002 SINGLE
XIS:FOCY 4 4 255002 255002 SINGLE
XIS:X 4 4 255002 255002 SINGLE
XIS:Y 4 4 255002 255002 SINGLE
XIS:STATUS 4 4 255002 255002 SINGLE
XIS:PHAS 36 36 255002 510004 SINGLE
XIS:PHANOCTI 4 4 510004 255002 SINGLE
XIS:PHA 4 4 510004 255002 SINGLE
XIS:PI 4 4 510004 255002 SINGLE
XIS:GRADE 4 4 510004 255002 SINGLE
XIS:P_OUTER_MOST 4 4 255002 510004 SINGLE
XIS:SUM_OUTER_MOST 4 4 255002 510004 SINGLE
XIS:AEDATE 4 4 255002 255002 FAMILY
XIS:EXPTIME 4 4 255002 255002 FAMILY
XIS:EXPTIME_AETIME 8 8 255002 255002 SINGLE
XIS:S_TIME 8 8 255002 255002 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 255002 255002 FAMILY
XIS:EVENT_SEQ_NO 4 4 255002 255002 SINGLE
XIS:TIME 8 8 255002 1275010 SINGLE
XIS:EXP_CENT_AETIME 8 8 255002 255002 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 255004 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 510004 255002 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 255002 255002 SINGLE
XIS:PHASCORR 72 72 765006 765006 SINGLE
XIS:PHA:DOUBLE 8 8 255002 255002 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 0.248 0.139 0.387 1.43
[ 2] XISreadExp 0.069 0.131 0.200 0.74
[ 3] XISreadEvent 4.405 0.233 4.638 17.15
[ 4] XISpreparePHASCORR 0.261 0.130 0.391 1.45
[ 5] XIStrailCorrection 0.538 0.127 0.665 2.46
[ 6] XISctiCorrection 10.157 4.416 14.574 53.90
[ 7] XISgrade 0.920 0.134 1.054 3.90
[ 8] XISpha2pi 0.580 0.139 0.719 2.66
[ 9] XISeditEventFits 4.035 0.348 4.383 16.21
(others) 0.020 0.007 0.027 0.10
--------------------------------------------------------------------------
TOTAL 21.234 5.804 27.038 100.00
-> xispi successful on ae802022010xi3_2_3x3n066.sff.infile,f,a,"ae802022010xi3_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae802022010xi3_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 ae802022010xi3_2_3x3n066.sff
OUTFILE ae802022010xi3_2_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae802022010xi3_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 / 255002 events )
frame time jump, t=250416174.687 - 250417398.687 by 1224.000 s
frame time jump, t=250417542.687 - 250417806.687 by 264.000 s
frame time jump, t=250419294.686 - 250421414.686 by 2120.000 s
frame time jump, t=250422278.686 - 250423366.686 by 1088.000 s
frame time jump, t=250423510.686 - 250423774.686 by 264.000 s
... 10% ( 25500 / 255002 events )
frame time jump, t=250425038.685 - 250427190.685 by 2152.000 s
saturated frame, t=250428422.685 - 250428430.685 55 (338/393) seg=1111
saturated frame, t=250428438.685 - 250428446.685 209 (153/362) seg=1111
frame time jump, t=250428446.685 - 250429126.685 by 680.000 s
frame time jump, t=250429270.685 - 250429534.684 by 264.000 s
frame time jump, t=250430782.684 - 250432934.684 by 2152.000 s
... 20% ( 51000 / 255002 events )
frame time jump, t=250436542.683 - 250438694.683 by 2152.000 s
... 30% ( 76500 / 255002 events )
frame time jump, t=250442302.682 - 250444454.682 by 2152.000 s
... 40% ( 102000 / 255002 events )
frame time jump, t=250448046.681 - 250450198.681 by 2152.000 s
... 50% ( 127500 / 255002 events )
frame time jump, t=250453806.680 - 250455934.680 by 2128.000 s
... 60% ( 153000 / 255002 events )
... 70% ( 178500 / 255002 events )
frame time jump, t=250459558.679 - 250461702.679 by 2144.000 s
... 80% ( 204000 / 255002 events )
frame time jump, t=250465318.678 - 250467678.678 by 2360.000 s
... 90% ( 229500 / 255002 events )
frame time jump, t=250471078.677 - 250473406.677 by 2328.000 s
frame time jump, t=250473550.677 - 250473814.677 by 264.000 s
... 100% ( 255002 / 255002 events )
XIScheckEventNo: GTI file 'ae802022010xi3_2_3x3n066.gti' created
N_FRAMES = 4610 / number of frames in the input event file
N_TESTED = 4610 / number of non-zero frames tested
N_PASSED = 4608 / 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 = 36880.000000 / exposure of non-zero frames tested
T_PASSED = 36864.000000 / exposure of frames passed the test
T_T_JUMP = 25887.998949 / 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: 4611
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 4610/4611
[ 2] XISreadExp version 1.6
| OK: 4610/4610
[ 3] XISreadEvent version 2.7 <------- LOOP: 255002
| OK: 255002/259612 -------> SKIP: 4610
[ 4] XIScheckEventNo version 1.2
| OK: 255002/255002
GET: 255002
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
4610 : XISreadFrame:ENTRY
4610 : XISreadFrame:OK
1 : XISreadExp:BEGIN
4610 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
259612 : XISreadEvent:ENTRY
259611 : XISreadEvent:OK
4610 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
255002 : XIScheckEventNo:ENTRY
255002 : 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 16 16 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 4610 259612 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 4610 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 4610 259612 SINGLE
XIS:FRAMES:S_TIME 8 8 4610 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 4610 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 4610 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 4610 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 4610 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 4610 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 4610 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 4610 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 4610 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 4610 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 4610 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 4610 4610 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 4610 0 SINGLE
XIS:FRAMES:BIAS 16 16 4610 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 4610 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 4610 0 SINGLE
XIS:FRAMES:AEDATE 4 4 4610 259612 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 4610 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 4610 255002 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 4610 4610 SINGLE
XIS:FRAMES:TIME 8 8 4610 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 255002 255002 SINGLE
XIS:RAWX 4 4 255002 0 SINGLE
XIS:RAWY 4 4 255002 0 SINGLE
XIS:ACTX 4 4 255002 0 SINGLE
XIS:ACTY 4 4 255002 0 SINGLE
XIS:DETX 4 4 255002 0 SINGLE
XIS:DETY 4 4 255002 0 SINGLE
XIS:FOCX 4 4 255002 0 SINGLE
XIS:FOCY 4 4 255002 0 SINGLE
XIS:X 4 4 255002 0 SINGLE
XIS:Y 4 4 255002 0 SINGLE
XIS:STATUS 4 4 255002 0 SINGLE
XIS:PHAS 36 36 255002 0 SINGLE
XIS:PHANOCTI 4 4 255002 0 SINGLE
XIS:PHA 4 4 255002 0 SINGLE
XIS:PI 4 4 255002 0 SINGLE
XIS:GRADE 4 4 255002 0 SINGLE
XIS:P_OUTER_MOST 4 4 255002 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 255002 0 SINGLE
XIS:AEDATE 4 4 255002 259611 FAMILY
XIS:EXPTIME 4 4 255002 259611 FAMILY
XIS:EXPTIME_AETIME 8 8 255002 0 SINGLE
XIS:S_TIME 8 8 255002 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 255002 259611 FAMILY
XIS:EVENT_SEQ_NO 4 4 255002 259611 SINGLE
XIS:TIME 8 8 255002 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 255002 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 1.050 0.012 1.062 14.62
[ 2] XISreadExp 0.007 0.002 0.009 0.12
[ 3] XISreadEvent 5.710 0.215 5.925 81.56
[ 4] XIScheckEventNo 0.135 0.113 0.248 3.41
(others) 0.014 0.007 0.021 0.29
--------------------------------------------------------------------------
TOTAL 6.916 0.349 7.265 100.00
-> xisgtigen successful on ae802022010xi3_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 ae802022010xi3_2_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi3_2_5x5n066.fff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_2_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_2_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae802022010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae802022010.tim[TIME_PACKETS_SEL]' ...
ntpk=16
aste_ti2time: reading 'ae802022010.tim[DP_TIMC]' ...
ndpk=57247, t=250146513.176 - 250582335.160
aste_ti2time: reading 'ae802022010.tim[DP_DHU_AVG]' ...
1: t0=250148599,N0=1580335104,Y=-1201755990/-1206621603,f=16777220.568,j=1,d=0
2: t0=250166903,N0=1655308288,Y=-1206621603/-1220614819,f=16777220.465,j=0,d=0
3: t0=250222743,N0=1884028928,Y=-1220614819/-1222278558,f=16777220.385,j=0,d=0
4: t0=250228823,N0=1908932608,Y=-1222278558/-1223466884,f=16777219.938,j=0,d=0
5: t0=250234903,N0=1933836288,Y=-1223466884/-1224572071,f=16777219.773,j=0,d=0
6: t0=250241015,N0=1958871040,Y=-1224572071/-1234757548,f=16777219.680,j=0,d=0
7: t0=250309047,N0=2237530112,Y=-1234757548/-1235616905,f=16777219.508,j=0,d=0
8: t0=250315159,N0=2262564864,Y=-1235616905/-1236577017,f=16777220.011,j=0,d=0
9: t0=250321175,N0=2287206400,Y=-1236577017/-1254851994,f=16777220.141,j=0,d=0
10: t0=250395319,N0=2590900224,Y=-1254851994/-1256496905,f=16777220.352,j=0,d=0
11: t0=250401463,N0=2616066048,Y=-1256496905/-1258345587,f=16777220.428,j=0,d=0
12: t0=250407575,N0=2641100800,Y=-1258345587/-1260419447,f=16777220.278,j=0,d=0
13: t0=250413655,N0=2666004480,Y=-1260419447/-1353561862,f=16777222.835,j=0,d=0
14: t0=250561847,N0=3272998912,Y=-1353561862/-1359567347,f=16777228.505,j=0,d=0
15: t0=250567991,N0=3298164736,Y=-1359567347/-1365688548,f=16777222.515,j=0,d=0
16: t0=250574039,N0=3322937344,Y=-1365688548/-1372245083,f=16777221.237,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 32455 events )
... 10% ( 3245 / 32455 events )
... 20% ( 6490 / 32455 events )
... 30% ( 9735 / 32455 events )
... 40% ( 12980 / 32455 events )
... 50% ( 16225 / 32455 events )
... 60% ( 19470 / 32455 events )
... 70% ( 22715 / 32455 events )
... 80% ( 25960 / 32455 events )
... 90% ( 29205 / 32455 events )
... 100% ( 32455 / 32455 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 250406742.687725 / time start
TSTOP = 250414054.687175 / time stop
TELAPASE = 7311.999449 / elapsed time = TSTOP - TSTART
ONTIME = 5671.999647 / on time = sum of all GTIs
LIVETIME = 5671.999647 / on-source time corrected for CCD exposure
EXPOSURE = 5671.999647 / exposure time
xisEventFitsUtil: rename ./fileIqtPSu-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 32457
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 32456/32457
[ 2] XISreadExp version 1.6
| OK: 32456/32456
[ 3] XISreadEvent version 2.7
| OK: 32455/32456 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 32455/32455
[ 5] XISeditEventFits version 2.1
| OK: 32455/32455
GET: 32455
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
32456 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
32456 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
32456 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
32455 : XIStime:ENTRY
32455 : XIStime:OK
1 : XISeditEventFits:BEGIN
32455 : XISeditEventFits:ENTRY
32455 : 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 16 16 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 32455 32455 SINGLE
XIS:RAWX 4 4 32455 32455 SINGLE
XIS:RAWY 4 4 32455 32455 SINGLE
XIS:ACTX 4 4 32455 32455 SINGLE
XIS:ACTY 4 4 32455 32455 SINGLE
XIS:DETX 4 4 32455 32455 SINGLE
XIS:DETY 4 4 32455 32455 SINGLE
XIS:FOCX 4 4 32455 32455 SINGLE
XIS:FOCY 4 4 32455 32455 SINGLE
XIS:X 4 4 32455 32455 SINGLE
XIS:Y 4 4 32455 32455 SINGLE
XIS:STATUS 4 4 32455 32455 SINGLE
XIS:PHAS 100 100 32455 32455 SINGLE
XIS:PHANOCTI 4 4 32455 32455 SINGLE
XIS:PHA 4 4 32455 32455 SINGLE
XIS:PI 4 4 32455 32455 SINGLE
XIS:GRADE 4 4 32455 32455 SINGLE
XIS:AEDATE 4 4 64910 32455 FAMILY
XIS:EXPTIME 4 4 32455 64910 FAMILY
XIS:EXPTIME_AETIME 8 8 64910 32455 SINGLE
XIS:S_TIME 8 8 32455 64910 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 32455 64910 FAMILY
XIS:EVENT_SEQ_NO 4 4 32455 32455 SINGLE
XIS:TIME 8 8 64910 32455 SINGLE
XIS:EXP_CENT_AETIME 8 8 64910 32455 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 32457 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 0.035 0.021 0.056 4.04
[ 2] XISreadExp 0.007 0.014 0.021 1.52
[ 3] XISreadEvent 0.534 0.035 0.569 41.08
[ 4] XIStime 0.163 0.025 0.188 13.57
[ 5] XISeditEventFits 0.476 0.057 0.533 38.48
(others) 0.007 0.011 0.018 1.30
--------------------------------------------------------------------------
TOTAL 1.222 0.163 1.385 100.00
-> xistime successful on ae802022010xi3_2_5x5n066.sff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_2_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_2_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 = 190.68320 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 746.47 / 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 = 3.05550 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 724.60 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 32455 events )
... 10% ( 3245 / 32455 events )
... 20% ( 6490 / 32455 events )
... 30% ( 9735 / 32455 events )
... 40% ( 12980 / 32455 events )
... 50% ( 16225 / 32455 events )
... 60% ( 19470 / 32455 events )
... 70% ( 22715 / 32455 events )
... 80% ( 25960 / 32455 events )
... 90% ( 29205 / 32455 events )
... 100% ( 32455 / 32455 events )
xisEventFitsUtil: rename ./filem1GuzY-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 32457
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 32456/32457
[ 2] XISreadExp version 1.6
| OK: 32456/32456
[ 3] XISreadEvent version 2.7
| OK: 32455/32456 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 32455/32455
[ 5] XISeditEventFits version 2.1
| OK: 32455/32455
GET: 32455
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
32456 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
32456 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
32456 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
32455 : XIScoord:ENTRY
32455 : XIScoord:OK
1 : XISeditEventFits:BEGIN
32455 : XISeditEventFits:ENTRY
32455 : 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 16 16 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 32455 64910 SINGLE
XIS:RAWX 4 4 32455 64910 SINGLE
XIS:RAWY 4 4 32455 64910 SINGLE
XIS:ACTX 4 4 64910 32455 SINGLE
XIS:ACTY 4 4 64910 32455 SINGLE
XIS:DETX 4 4 64910 32455 SINGLE
XIS:DETY 4 4 64910 32455 SINGLE
XIS:FOCX 4 4 64910 32455 SINGLE
XIS:FOCY 4 4 64910 32455 SINGLE
XIS:X 4 4 64910 32455 SINGLE
XIS:Y 4 4 64910 32455 SINGLE
XIS:STATUS 4 4 32455 32455 SINGLE
XIS:PHAS 100 100 32455 32455 SINGLE
XIS:PHANOCTI 4 4 32455 32455 SINGLE
XIS:PHA 4 4 32455 32455 SINGLE
XIS:PI 4 4 32455 32455 SINGLE
XIS:GRADE 4 4 32455 32455 SINGLE
XIS:AEDATE 4 4 32455 32455 FAMILY
XIS:EXPTIME 4 4 32455 32455 FAMILY
XIS:EXPTIME_AETIME 8 8 32455 32455 SINGLE
XIS:S_TIME 8 8 32455 32455 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 32455 32455 FAMILY
XIS:EVENT_SEQ_NO 4 4 32455 32455 SINGLE
XIS:TIME 8 8 32455 64910 SINGLE
XIS:EXP_CENT_AETIME 8 8 32455 32455 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 32457 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 0.016 0.048 3.18
[ 2] XISreadExp 0.010 0.015 0.025 1.66
[ 3] XISreadEvent 0.484 0.032 0.516 34.19
[ 4] XIScoord 0.287 0.056 0.343 22.73
[ 5] XISeditEventFits 0.491 0.062 0.553 36.65
(others) 0.016 0.008 0.024 1.59
--------------------------------------------------------------------------
TOTAL 1.320 0.189 1.509 100.00
-> xiscoord successful on ae802022010xi3_2_5x5n066.sff.infile,f,a,"ae802022010xi3_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 ae802022010xi3_2_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_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 / 32455 events )
... 10% ( 3245 / 32455 events )
... 20% ( 6490 / 32455 events )
... 30% ( 9735 / 32455 events )
... 40% ( 12980 / 32455 events )
... 50% ( 16225 / 32455 events )
... 60% ( 19470 / 32455 events )
... 70% ( 22715 / 32455 events )
... 80% ( 25960 / 32455 events )
... 90% ( 29205 / 32455 events )
... 100% ( 32455 / 32455 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 679 2.09
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 1339 4.13
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 490 1.51
B8 256 1PIX_FROM_SEGBOUNDARY 202 0.62
B9 512 SCI_3rd_TRAILING_ROW 340 1.05
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 1633 5.03
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 358 1.10
B16 65536 CALMASK 5272 16.24
B17 131072 SEGBOUNDARY 644 1.98
B18 262144 SCI_2nd_TRAILING_ROW 411 1.27
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 968 2.98
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 6493 20.01
B29 536870912 SCI_TRAILING_ROW 6239 19.22
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 25 0.08
### 0 CLEAN_ZERO 13546 41.74
--------------------------------------------------------------
+++ 4294967295 SUM 38639 119.05
::: 524287 SAFE(B0-18) 19033 58.64
>>> 4294967295 TOTAL 32455 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filedx4kON-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 32457
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 32456/32457
[ 2] XISreadExp version 1.6
| OK: 32456/32456
[ 3] XISreadEvent version 2.7
| OK: 32455/32456 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 32455/32455
[ 5] XISeditEventFits version 2.1
| OK: 32455/32455
GET: 32455
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
32456 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
32456 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
32456 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
32455 : XISputPixelQuality:ENTRY
32455 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
32455 : XISeditEventFits:ENTRY
32455 : 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 16 16 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 32455 32455 SINGLE
XIS:RAWX 4 4 32455 32455 SINGLE
XIS:RAWY 4 4 32455 64910 SINGLE
XIS:ACTX 4 4 32455 64910 SINGLE
XIS:ACTY 4 4 32455 64910 SINGLE
XIS:DETX 4 4 32455 32455 SINGLE
XIS:DETY 4 4 32455 32455 SINGLE
XIS:FOCX 4 4 32455 32455 SINGLE
XIS:FOCY 4 4 32455 32455 SINGLE
XIS:X 4 4 32455 32455 SINGLE
XIS:Y 4 4 32455 32455 SINGLE
XIS:STATUS 4 4 64910 32455 SINGLE
XIS:PHAS 100 100 32455 32455 SINGLE
XIS:PHANOCTI 4 4 32455 32455 SINGLE
XIS:PHA 4 4 32455 32455 SINGLE
XIS:PI 4 4 32455 32455 SINGLE
XIS:GRADE 4 4 32455 32455 SINGLE
XIS:AEDATE 4 4 32455 32455 FAMILY
XIS:EXPTIME 4 4 32455 32455 FAMILY
XIS:EXPTIME_AETIME 8 8 32455 32455 SINGLE
XIS:S_TIME 8 8 32455 32455 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 32455 32455 FAMILY
XIS:EVENT_SEQ_NO 4 4 32455 32455 SINGLE
XIS:TIME 8 8 32455 64910 SINGLE
XIS:EXP_CENT_AETIME 8 8 32455 32455 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 32457 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 0.026 0.026 0.052 4.04
[ 2] XISreadExp 0.012 0.016 0.028 2.18
[ 3] XISreadEvent 0.494 0.022 0.516 40.12
[ 4] XISputPixelQuality 0.084 0.023 0.107 8.32
[ 5] XISeditEventFits 0.489 0.077 0.566 44.01
(others) 0.009 0.008 0.017 1.32
--------------------------------------------------------------------------
TOTAL 1.114 0.172 1.286 100.00
-> xisputpixelquality successful on ae802022010xi3_2_5x5n066.sff.infile,f,a,"ae802022010xi3_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,"ae802022010xi3_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 ae802022010xi3_2_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_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 30-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 68-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 'ae802022010xi3_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 ae802022010xi3_0.hk, S3_VDCHK18_CAL, nrows=4933
nvalid=4716 nrej=217 time=250319101.2 - 250478027.2 [s]
AE-temp: average=17.783 sigma=0.897 min=14.550 max=19.500 [degC]
Event... 1 (0)
... 0% ( 0 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 10% ( 3245 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 20% ( 6490 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 30% ( 9735 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 40% ( 12980 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 50% ( 16225 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 60% ( 19470 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 70% ( 22715 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 80% ( 25960 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 90% ( 29205 / 32455 events )
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
reading PARALLEL_CTI_SCI at 68-th row
... 100% ( 32455 / 32455 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filerY5UU9-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 32457
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 32456/32457
[ 2] XISreadExp version 1.6
| OK: 32456/32456
[ 3] XISreadEvent version 2.7
| OK: 32455/32456 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 32455/32455
[ 5] XIStrailCorrection version 3.1
| OK: 32455/32455
[ 6] XISctiCorrection version 3.4
| OK: 32455/32455
[ 7] XISgrade version 3.3
| OK: 32455/32455
[ 8] XISpha2pi version 3.2
| OK: 32455/32455
[ 9] XISeditEventFits version 2.1
| OK: 32455/32455
GET: 32455
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
32456 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
32456 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
32456 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
32455 : XISpreparePHASCORR:ENTRY
32455 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
32455 : XIStrailCorrection:ENTRY
32455 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
32455 : XISctiCorrection:ENTRY
32455 : XISctiCorrection:OK
1 : XISgrade:BEGIN
32455 : XISgrade:ENTRY
32455 : XISgrade:OK
1 : XISpha2pi:BEGIN
32455 : XISpha2pi:ENTRY
32455 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
32455 : XISeditEventFits:ENTRY
32455 : 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 129826 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 16 16 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 32455 162275 SINGLE
XIS:RAWX 4 4 32455 97365 SINGLE
XIS:RAWY 4 4 32455 64910 SINGLE
XIS:ACTX 4 4 32455 32455 SINGLE
XIS:ACTY 4 4 32455 97365 SINGLE
XIS:DETX 4 4 32455 32455 SINGLE
XIS:DETY 4 4 32455 32455 SINGLE
XIS:FOCX 4 4 32455 32455 SINGLE
XIS:FOCY 4 4 32455 32455 SINGLE
XIS:X 4 4 32455 32455 SINGLE
XIS:Y 4 4 32455 32455 SINGLE
XIS:STATUS 4 4 32455 32455 SINGLE
XIS:PHAS 100 100 32455 64910 SINGLE
XIS:PHANOCTI 4 4 64910 32455 SINGLE
XIS:PHA 4 4 64910 32455 SINGLE
XIS:PI 4 4 64910 32455 SINGLE
XIS:GRADE 4 4 64910 32455 SINGLE
XIS:AEDATE 4 4 32455 32455 FAMILY
XIS:EXPTIME 4 4 32455 32455 FAMILY
XIS:EXPTIME_AETIME 8 8 32455 32455 SINGLE
XIS:S_TIME 8 8 32455 32455 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 32455 32455 FAMILY
XIS:EVENT_SEQ_NO 4 4 32455 32455 SINGLE
XIS:TIME 8 8 32455 162275 SINGLE
XIS:EXP_CENT_AETIME 8 8 32455 32455 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 32457 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 64910 32455 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 32455 32455 SINGLE
XIS:PHASCORR 200 200 97365 97365 SINGLE
XIS:PHA:DOUBLE 8 8 32455 32455 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 0.036 0.024 0.060 1.38
[ 2] XISreadExp 0.015 0.014 0.029 0.67
[ 3] XISreadEvent 0.522 0.026 0.548 12.65
[ 4] XISpreparePHASCORR 0.038 0.012 0.050 1.15
[ 5] XIStrailCorrection 0.094 0.019 0.113 2.61
[ 6] XISctiCorrection 1.973 0.688 2.661 61.41
[ 7] XISgrade 0.117 0.019 0.136 3.14
[ 8] XISpha2pi 0.091 0.021 0.112 2.58
[ 9] XISeditEventFits 0.540 0.058 0.598 13.80
(others) 0.020 0.006 0.026 0.60
--------------------------------------------------------------------------
TOTAL 3.445 0.887 4.332 100.00
-> xispi successful on ae802022010xi3_2_5x5n066.sff.infile,f,a,"ae802022010xi3_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae802022010xi3_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 ae802022010xi3_2_5x5n066.sff
OUTFILE ae802022010xi3_2_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae802022010xi3_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 / 32455 events )
saturated frame, t=250406742.688 - 250406750.688 -3 (3/0) seg=1111
... 10% ( 3245 / 32455 events )
... 20% ( 6490 / 32455 events )
... 30% ( 9735 / 32455 events )
... 40% ( 12980 / 32455 events )
frame time jump, t=250410054.688 - 250411430.688 by 1376.000 s
... 50% ( 16225 / 32455 events )
frame time jump, t=250411574.688 - 250411838.688 by 264.000 s
... 60% ( 19470 / 32455 events )
... 70% ( 22715 / 32455 events )
saturated frame, t=250413558.687 - 250413566.687 65 (888/953) seg=1111
... 80% ( 25960 / 32455 events )
saturated frame, t=250413566.687 - 250413574.687 131 (887/1018) seg=1111
saturated frame, t=250413574.687 - 250413582.687 157 (886/1043) seg=1111
... 90% ( 29205 / 32455 events )
... 100% ( 32455 / 32455 events )
XIScheckEventNo: GTI file 'ae802022010xi3_2_5x5n066.gti' created
N_FRAMES = 709 / number of frames in the input event file
N_TESTED = 709 / number of non-zero frames tested
N_PASSED = 705 / number of frames passed the test
N_T_JUMP = 2 / number of frames detected time jump
N_SATURA = 4 / number of frames telemetry saturated
T_TESTED = 5672.000000 / exposure of non-zero frames tested
T_PASSED = 5640.000000 / exposure of frames passed the test
T_T_JUMP = 1639.999803 / loss of exposure due to time jump
T_SATURA = 32.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 710
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 709/710
[ 2] XISreadExp version 1.6
| OK: 709/709
[ 3] XISreadEvent version 2.7 <------- LOOP: 32455
| OK: 32455/33164 -------> SKIP: 709
[ 4] XIScheckEventNo version 1.2
| OK: 32455/32455
GET: 32455
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
709 : XISreadFrame:ENTRY
709 : XISreadFrame:OK
1 : XISreadExp:BEGIN
709 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
33164 : XISreadEvent:ENTRY
33163 : XISreadEvent:OK
709 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
32455 : XIScheckEventNo:ENTRY
32455 : 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 16 16 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 4 709 33164 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 709 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 709 33164 SINGLE
XIS:FRAMES:S_TIME 8 8 709 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 709 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 709 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 709 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 709 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 709 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 709 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 709 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 709 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 709 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 709 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 709 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 709 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 709 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 709 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 709 709 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 709 0 SINGLE
XIS:FRAMES:BIAS 16 16 709 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 709 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 709 0 SINGLE
XIS:FRAMES:AEDATE 4 4 709 33164 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 709 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 709 32455 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 709 709 SINGLE
XIS:FRAMES:TIME 8 8 709 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 32455 32455 SINGLE
XIS:RAWX 4 4 32455 0 SINGLE
XIS:RAWY 4 4 32455 0 SINGLE
XIS:ACTX 4 4 32455 0 SINGLE
XIS:ACTY 4 4 32455 0 SINGLE
XIS:DETX 4 4 32455 0 SINGLE
XIS:DETY 4 4 32455 0 SINGLE
XIS:FOCX 4 4 32455 0 SINGLE
XIS:FOCY 4 4 32455 0 SINGLE
XIS:X 4 4 32455 0 SINGLE
XIS:Y 4 4 32455 0 SINGLE
XIS:STATUS 4 4 32455 0 SINGLE
XIS:PHAS 100 100 32455 0 SINGLE
XIS:PHANOCTI 4 4 32455 0 SINGLE
XIS:PHA 4 4 32455 0 SINGLE
XIS:PI 4 4 32455 0 SINGLE
XIS:GRADE 4 4 32455 0 SINGLE
XIS:AEDATE 4 4 32455 33163 FAMILY
XIS:EXPTIME 4 4 32455 33163 FAMILY
XIS:EXPTIME_AETIME 8 8 32455 0 SINGLE
XIS:S_TIME 8 8 32455 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 32455 33163 FAMILY
XIS:EVENT_SEQ_NO 4 4 32455 33163 SINGLE
XIS:TIME 8 8 32455 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 32455 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 0.191 0.004 0.195 19.36
[ 2] XISreadExp 0.002 0.001 0.003 0.30
[ 3] XISreadEvent 0.727 0.027 0.754 74.88
[ 4] XIScheckEventNo 0.022 0.015 0.037 3.67
(others) 0.013 0.005 0.018 1.79
--------------------------------------------------------------------------
TOTAL 0.955 0.052 1.007 100.00
-> xisgtigen successful on ae802022010xi3_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 ae802022010xi1_1_dun069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi1_1_dun069.fff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_1_dun069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_1_dun069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 / 12612 events )
... 10% ( 1261 / 12612 events )
... 20% ( 2522 / 12612 events )
... 30% ( 3783 / 12612 events )
... 40% ( 5044 / 12612 events )
... 50% ( 6305 / 12612 events )
... 60% ( 7566 / 12612 events )
... 70% ( 8827 / 12612 events )
... 80% ( 10088 / 12612 events )
... 90% ( 11349 / 12612 events )
... 100% ( 12612 / 12612 events )
xisEventFitsUtil: rename ./file8mJd7C-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 12614
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 12613/12614
[ 2] XISreadExp version 1.6
| OK: 12613/12613
[ 3] XISreadEvent version 2.7
| OK: 12612/12613 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 12612/12612
[ 5] XISeditEventFits version 2.1
| OK: 12612/12612
GET: 12612
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
12613 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
12613 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
12613 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
12612 : XIScoord:ENTRY
12612 : XIScoord:OK
1 : XISeditEventFits:BEGIN
12612 : XISeditEventFits:ENTRY
12612 : 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 16 16 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 12612 25224 SINGLE
XIS:PPUX 4 4 12612 25224 SINGLE
XIS:PPUY 4 4 12612 25224 SINGLE
XIS:RAWX 4 4 25224 12612 SINGLE
XIS:RAWY 4 4 25224 12612 SINGLE
XIS:ACTX 4 4 25224 12612 SINGLE
XIS:ACTY 4 4 25224 12612 SINGLE
XIS:DETX 4 4 25224 12612 SINGLE
XIS:DETY 4 4 25224 12612 SINGLE
XIS:PHAS 4 4 12612 12612 SINGLE
XIS:AEDATE 4 4 12612 12612 FAMILY
XIS:EXPTIME 4 4 12612 12612 FAMILY
XIS:EXPTIME_AETIME 8 8 12612 12612 SINGLE
XIS:S_TIME 8 8 12612 12612 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 12612 12612 FAMILY
XIS:EVENT_SEQ_NO 4 4 12612 12612 SINGLE
XIS:TIME 8 8 12612 25224 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 12614 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 0.013 0.010 0.023 5.81
[ 2] XISreadExp 0.003 0.010 0.013 3.28
[ 3] XISreadEvent 0.131 0.008 0.139 35.10
[ 4] XIScoord 0.038 0.005 0.043 10.86
[ 5] XISeditEventFits 0.143 0.011 0.154 38.89
(others) 0.017 0.007 0.024 6.06
--------------------------------------------------------------------------
TOTAL 0.345 0.051 0.396 100.00
-> xiscoord successful on ae802022010xi1_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 ae802022010xi1_2_dun069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi1_2_dun069.fff.infile,f,a,"ae802022010xi1_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,"ae802022010.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 ae802022010xi1_2_dun069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi1_2_dun069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 / 7536 events )
... 10% ( 753 / 7536 events )
... 20% ( 1506 / 7536 events )
... 30% ( 2259 / 7536 events )
... 40% ( 3012 / 7536 events )
... 50% ( 3765 / 7536 events )
... 60% ( 4518 / 7536 events )
... 70% ( 5271 / 7536 events )
... 80% ( 6024 / 7536 events )
... 90% ( 6777 / 7536 events )
... 100% ( 7536 / 7536 events )
xisEventFitsUtil: rename ./filepQ3Jep-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7538
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 7537/7538
[ 2] XISreadExp version 1.6
| OK: 7537/7537
[ 3] XISreadEvent version 2.7
| OK: 7536/7537 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 7536/7536
[ 5] XISeditEventFits version 2.1
| OK: 7536/7536
GET: 7536
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
7537 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
7537 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
7537 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
7536 : XIScoord:ENTRY
7536 : XIScoord:OK
1 : XISeditEventFits:BEGIN
7536 : XISeditEventFits:ENTRY
7536 : 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 16 16 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 7536 15072 SINGLE
XIS:PPUX 4 4 7536 15072 SINGLE
XIS:PPUY 4 4 7536 15072 SINGLE
XIS:RAWX 4 4 15072 7536 SINGLE
XIS:RAWY 4 4 15072 7536 SINGLE
XIS:ACTX 4 4 15072 7536 SINGLE
XIS:ACTY 4 4 15072 7536 SINGLE
XIS:DETX 4 4 15072 7536 SINGLE
XIS:DETY 4 4 15072 7536 SINGLE
XIS:PHAS 4 4 7536 7536 SINGLE
XIS:AEDATE 4 4 7536 7536 FAMILY
XIS:EXPTIME 4 4 7536 7536 FAMILY
XIS:EXPTIME_AETIME 8 8 7536 7536 SINGLE
XIS:S_TIME 8 8 7536 7536 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 7536 7536 FAMILY
XIS:EVENT_SEQ_NO 4 4 7536 7536 SINGLE
XIS:TIME 8 8 7536 15072 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 7538 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 0.012 0.004 0.016 5.86
[ 2] XISreadExp 0.000 0.005 0.005 1.83
[ 3] XISreadEvent 0.082 0.008 0.090 32.96
[ 4] XIScoord 0.037 0.002 0.039 14.29
[ 5] XISeditEventFits 0.093 0.009 0.102 37.37
(others) 0.015 0.006 0.021 7.69
--------------------------------------------------------------------------
TOTAL 0.239 0.034 0.273 100.00
-> xiscoord successful on ae802022010xi1_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 ae802022010xi3_1_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi3_1_dun066.fff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_1_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_1_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 / 10867 events )
... 10% ( 1086 / 10867 events )
... 20% ( 2172 / 10867 events )
... 30% ( 3258 / 10867 events )
... 40% ( 4344 / 10867 events )
... 50% ( 5430 / 10867 events )
... 60% ( 6516 / 10867 events )
... 70% ( 7602 / 10867 events )
... 80% ( 8688 / 10867 events )
... 90% ( 9774 / 10867 events )
... 100% ( 10867 / 10867 events )
xisEventFitsUtil: rename ./fileEyWjX0-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 10869
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 10868/10869
[ 2] XISreadExp version 1.6
| OK: 10868/10868
[ 3] XISreadEvent version 2.7
| OK: 10867/10868 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 10867/10867
[ 5] XISeditEventFits version 2.1
| OK: 10867/10867
GET: 10867
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
10868 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
10868 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
10868 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
10867 : XIScoord:ENTRY
10867 : XIScoord:OK
1 : XISeditEventFits:BEGIN
10867 : XISeditEventFits:ENTRY
10867 : 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 16 16 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 10867 21734 SINGLE
XIS:PPUX 4 4 10867 21734 SINGLE
XIS:PPUY 4 4 10867 21734 SINGLE
XIS:RAWX 4 4 21734 10867 SINGLE
XIS:RAWY 4 4 21734 10867 SINGLE
XIS:ACTX 4 4 21734 10867 SINGLE
XIS:ACTY 4 4 21734 10867 SINGLE
XIS:DETX 4 4 21734 10867 SINGLE
XIS:DETY 4 4 21734 10867 SINGLE
XIS:PHAS 4 4 10867 10867 SINGLE
XIS:AEDATE 4 4 10867 10867 FAMILY
XIS:EXPTIME 4 4 10867 10867 FAMILY
XIS:EXPTIME_AETIME 8 8 10867 10867 SINGLE
XIS:S_TIME 8 8 10867 10867 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 10867 10867 FAMILY
XIS:EVENT_SEQ_NO 4 4 10867 10867 SINGLE
XIS:TIME 8 8 10867 21734 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 10869 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 0.012 0.005 0.017 4.75
[ 2] XISreadExp 0.003 0.004 0.007 1.96
[ 3] XISreadEvent 0.137 0.010 0.147 41.06
[ 4] XIScoord 0.031 0.010 0.041 11.45
[ 5] XISeditEventFits 0.111 0.014 0.125 34.92
(others) 0.015 0.006 0.021 5.87
--------------------------------------------------------------------------
TOTAL 0.309 0.049 0.358 100.00
-> xiscoord successful on ae802022010xi3_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 ae802022010xi3_2_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae802022010xi3_2_dun066.fff.infile,f,a,"ae802022010xi3_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,"ae802022010.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 ae802022010xi3_2_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae802022010xi3_2_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae802022010.att'
SKYREF (190.6832, 3.0555, 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 / 6518 events )
... 10% ( 651 / 6518 events )
... 20% ( 1302 / 6518 events )
... 30% ( 1953 / 6518 events )
... 40% ( 2604 / 6518 events )
... 50% ( 3255 / 6518 events )
... 60% ( 3906 / 6518 events )
... 70% ( 4557 / 6518 events )
... 80% ( 5208 / 6518 events )
... 90% ( 5859 / 6518 events )
... 100% ( 6518 / 6518 events )
xisEventFitsUtil: rename ./fileUYLFYS-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 6520
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 6519/6520
[ 2] XISreadExp version 1.6
| OK: 6519/6519
[ 3] XISreadEvent version 2.7
| OK: 6518/6519 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 6518/6518
[ 5] XISeditEventFits version 2.1
| OK: 6518/6518
GET: 6518
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
6519 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
6519 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
6519 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
6518 : XIScoord:ENTRY
6518 : XIScoord:OK
1 : XISeditEventFits:BEGIN
6518 : XISeditEventFits:ENTRY
6518 : 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 16 16 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 6518 13036 SINGLE
XIS:PPUX 4 4 6518 13036 SINGLE
XIS:PPUY 4 4 6518 13036 SINGLE
XIS:RAWX 4 4 13036 6518 SINGLE
XIS:RAWY 4 4 13036 6518 SINGLE
XIS:ACTX 4 4 13036 6518 SINGLE
XIS:ACTY 4 4 13036 6518 SINGLE
XIS:DETX 4 4 13036 6518 SINGLE
XIS:DETY 4 4 13036 6518 SINGLE
XIS:PHAS 4 4 6518 6518 SINGLE
XIS:AEDATE 4 4 6518 6518 FAMILY
XIS:EXPTIME 4 4 6518 6518 FAMILY
XIS:EXPTIME_AETIME 8 8 6518 6518 SINGLE
XIS:S_TIME 8 8 6518 6518 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 6518 6518 FAMILY
XIS:EVENT_SEQ_NO 4 4 6518 6518 SINGLE
XIS:TIME 8 8 6518 13036 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 6520 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 0.010 0.003 0.013 5.24
[ 2] XISreadExp 0.000 0.001 0.001 0.40
[ 3] XISreadEvent 0.066 0.007 0.073 29.44
[ 4] XIScoord 0.034 0.005 0.039 15.73
[ 5] XISeditEventFits 0.094 0.003 0.097 39.11
(others) 0.018 0.007 0.025 10.08
--------------------------------------------------------------------------
TOTAL 0.222 0.026 0.248 100.00
-> xiscoord successful on ae802022010xi3_2_dun066.sff.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae802022010xi1_2_conf_uf.gti from ae802022010xi1_2_3x3n069z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae802022010xi1_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 x36 x
2.503195193234325E+08 2.503211600000000E+08 2.503236870000000E+08 2.503237560000000E+08 2.503255340000000E+08 2.503269140000000E+08 2.503294410000000E+08 2.503298650000000E+08 2.503315120000000E+08 2.503326670000000E+08 2.503351950000000E+08 2.503359730000000E+08 2.503374880000000E+08 2.503384210000000E+08 2.503409480000000E+08 2.503421220000000E+08 2.503432990000000E+08 2.503441740000000E+08 2.503467020000000E+08 2.503499280000000E+08 2.503524560000000E+08 2.503556810000000E+08 2.503582090000000E+08 2.503614340000000E+08 2.503639630000000E+08 2.503671874420350E+08 2.503697160000000E+08 2.503729410000000E+08 2.503754700000000E+08 2.503786950000000E+08 2.503813350000000E+08 2.503844480000000E+08 2.503874750000000E+08 2.503902010000000E+08 2.503935810000000E+08 2.503959550000000E+08 2.503996930000000E+08 2.504017080000000E+08 2.504058300000000E+08 2.504074613145146E+08 2.504099920000000E+08 2.504100700000000E+08 2.504118110000000E+08 2.504132150000000E+08 2.504157450000000E+08 2.504161740000000E+08 2.504177880000000E+08 2.504189690000000E+08 2.504214990000000E+08 2.504222900000000E+08 2.504237630000000E+08 2.504247214361669E+08 2.504272520000000E+08 2.504284540000000E+08 2.504295134351556E+08 2.504304750000000E+08 2.504330060000000E+08 2.504362290000000E+08 2.504387590000000E+08 2.504419820000000E+08 2.504445130000000E+08 2.504477360000000E+08 2.504502660000000E+08 2.504534890000000E+08 2.504560200000000E+08 2.504592420000000E+08 2.504617730000000E+08 2.504649960000000E+08 2.504676600000000E+08 2.504707490000000E+08 2.504737870000000E+08 2.504765020000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_1_3x3n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
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Total Good Bad: Region Time Phase Grade Cut
284565 146038 0 138527 0 0 0
Writing events file
146038 events written to the output file
Doing file: ae802022010xi1_2_3x3n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
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Total Good Bad: Region Time Phase Grade Cut
158751 127129 0 31622 0 0 0
Writing events file
273167 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
443316 273167 0 170149 0 0 0
in 63765. seconds
-> Running cleansis.datafile,s,h,"ae802022010xi1_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 : 273167
Total counts in chip images : 273161
cleaning chip # 0
Hot pixels & counts : 32 51464
Flickering pixels iter, pixels & cnts : 1 804 8811
Flickering pixels iter, pixels & cnts : 2 34 156
Flickering pixels iter, pixels & cnts : 3 3 11
cleaning chip # 1
Hot pixels & counts : 35 40285
Flickering pixels iter, pixels & cnts : 1 733 8363
Flickering pixels iter, pixels & cnts : 2 21 218
Flickering pixels iter, pixels & cnts : 3 5 46
Flickering pixels iter, pixels & cnts : 4 1 12
cleaning chip # 2
Hot pixels & counts : 30 29812
Flickering pixels iter, pixels & cnts : 1 760 7499
Flickering pixels iter, pixels & cnts : 2 23 96
cleaning chip # 3
Hot pixels & counts : 26 26915
Flickering pixels iter, pixels & cnts : 1 708 7610
Flickering pixels iter, pixels & cnts : 2 21 74
Number of pixels rejected : 3236
Number of (internal) image counts : 273161
Number of image cts rejected (N, %) : 181372 66.40
By chip : 0 1 2 3
Pixels rejected : 873 795 813 755
Image counts : 83351 72130 59911 57769
Image cts rejected: 60442 48924 37407 34599
Image cts rej (%) : 72.52 67.83 62.44 59.89
Total counts : 83353 72131 59912 57771
Total cts rejected: 60442 48924 37407 34599
Total cts rej (%) : 72.51 67.83 62.44 59.89
Number of clean counts accepted : 91795
Number of rejected pixels : 3236
-> cleansis successful on ae802022010xi1_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 x36 x
2.503195193234325E+08 2.503211600000000E+08 2.503236870000000E+08 2.503237560000000E+08 2.503255340000000E+08 2.503269140000000E+08 2.503294410000000E+08 2.503298650000000E+08 2.503315120000000E+08 2.503326670000000E+08 2.503351950000000E+08 2.503359730000000E+08 2.503374880000000E+08 2.503384210000000E+08 2.503409480000000E+08 2.503421220000000E+08 2.503432990000000E+08 2.503441740000000E+08 2.503467020000000E+08 2.503499280000000E+08 2.503524560000000E+08 2.503556810000000E+08 2.503582090000000E+08 2.503614340000000E+08 2.503639630000000E+08 2.503671874420350E+08 2.503697160000000E+08 2.503729410000000E+08 2.503754700000000E+08 2.503786950000000E+08 2.503813350000000E+08 2.503844480000000E+08 2.503874750000000E+08 2.503902010000000E+08 2.503935810000000E+08 2.503959550000000E+08 2.503996930000000E+08 2.504017080000000E+08 2.504058300000000E+08 2.504074613145146E+08 2.504099920000000E+08 2.504100700000000E+08 2.504118110000000E+08 2.504132150000000E+08 2.504157450000000E+08 2.504161740000000E+08 2.504177880000000E+08 2.504189690000000E+08 2.504214990000000E+08 2.504222900000000E+08 2.504237630000000E+08 2.504247214361669E+08 2.504272520000000E+08 2.504284540000000E+08 2.504295134351556E+08 2.504304750000000E+08 2.504330060000000E+08 2.504362290000000E+08 2.504387590000000E+08 2.504419820000000E+08 2.504445130000000E+08 2.504477360000000E+08 2.504502660000000E+08 2.504534890000000E+08 2.504560200000000E+08 2.504592420000000E+08 2.504617730000000E+08 2.504649960000000E+08 2.504676600000000E+08 2.504707490000000E+08 2.504737870000000E+08 2.504765020000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_1_5x5n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
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Total Good Bad: Region Time Phase Grade Cut
44189 20773 0 23416 0 0 0
Writing events file
20773 events written to the output file
Doing file: ae802022010xi1_2_5x5n069z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
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Total Good Bad: Region Time Phase Grade Cut
23736 7790 0 15946 0 0 0
Writing events file
28563 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
67925 28563 0 39362 0 0 0
in 7664.6 seconds
-> Running cleansis.datafile,s,h,"ae802022010xi1_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
File NEVENTS keyword value : 28563
Total counts in chip images : 28562
cleaning chip # 0
Hot pixels & counts : 31 6081
Flickering pixels iter, pixels & cnts : 1 60 376
Flickering pixels iter, pixels & cnts : 2 2 6
cleaning chip # 1
Hot pixels & counts : 18 4146
Flickering pixels iter, pixels & cnts : 1 57 418
cleaning chip # 2
Hot pixels & counts : 21 3698
Flickering pixels iter, pixels & cnts : 1 61 359
cleaning chip # 3
Hot pixels & counts : 18 3026
Flickering pixels iter, pixels & cnts : 1 69 435
Flickering pixels iter, pixels & cnts : 2 1 4
Number of pixels rejected : 338
Number of (internal) image counts : 28562
Number of image cts rejected (N, %) : 18549 64.94
By chip : 0 1 2 3
Pixels rejected : 93 75 82 88
Image counts : 9043 7049 6537 5933
Image cts rejected: 6463 4564 4057 3465
Image cts rej (%) : 71.47 64.75 62.06 58.40
Total counts : 9043 7049 6537 5934
Total cts rejected: 6463 4564 4057 3465
Total cts rej (%) : 71.47 64.75 62.06 58.39
Number of clean counts accepted : 10014
Number of rejected pixels : 338
-> cleansis successful on ae802022010xi1_0_5x5n069b_cl.evt.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae802022010xi3_2_conf_uf.gti from ae802022010xi3_2_3x3n066z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae802022010xi3_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 x36 x
2.503195193234325E+08 2.503211600000000E+08 2.503236870000000E+08 2.503237560000000E+08 2.503255340000000E+08 2.503269140000000E+08 2.503294410000000E+08 2.503298650000000E+08 2.503315120000000E+08 2.503326670000000E+08 2.503351950000000E+08 2.503359730000000E+08 2.503374880000000E+08 2.503384210000000E+08 2.503409480000000E+08 2.503421220000000E+08 2.503432990000000E+08 2.503441740000000E+08 2.503467020000000E+08 2.503499280000000E+08 2.503524560000000E+08 2.503556810000000E+08 2.503582090000000E+08 2.503614340000000E+08 2.503639630000000E+08 2.503671874420350E+08 2.503697160000000E+08 2.503729410000000E+08 2.503754700000000E+08 2.503786950000000E+08 2.503813350000000E+08 2.503844480000000E+08 2.503874750000000E+08 2.503902010000000E+08 2.503935810000000E+08 2.503959550000000E+08 2.503996930000000E+08 2.504017080000000E+08 2.504058300000000E+08 2.504074613145146E+08 2.504099920000000E+08 2.504100700000000E+08 2.504118110000000E+08 2.504132150000000E+08 2.504157450000000E+08 2.504161740000000E+08 2.504177880000000E+08 2.504189690000000E+08 2.504214990000000E+08 2.504222900000000E+08 2.504237630000000E+08 2.504247214361669E+08 2.504272520000000E+08 2.504284540000000E+08 2.504295134351556E+08 2.504304750000000E+08 2.504330060000000E+08 2.504362290000000E+08 2.504387590000000E+08 2.504419820000000E+08 2.504445130000000E+08 2.504477360000000E+08 2.504502660000000E+08 2.504534890000000E+08 2.504560200000000E+08 2.504592420000000E+08 2.504617730000000E+08 2.504649960000000E+08 2.504676600000000E+08 2.504707490000000E+08 2.504737870000000E+08 2.504765020000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_1_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
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Total Good Bad: Region Time Phase Grade Cut
27558 15277 0 12281 0 0 0
Writing events file
15277 events written to the output file
Doing file: ae802022010xi3_2_3x3n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
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Total Good Bad: Region Time Phase Grade Cut
19519 15318 0 4201 0 0 0
Writing events file
30595 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
47077 30595 0 16482 0 0 0
in 63765. seconds
-> Running cleansis.datafile,s,h,"ae802022010xi3_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 : 30595
cleaning chip # 0
Hot pixels & counts : 2 2752
Flickering pixels iter, pixels & cnts : 1 5 28
cleaning chip # 1
Hot pixels & counts : 2 5974
Flickering pixels iter, pixels & cnts : 1 15 85
cleaning chip # 2
Hot pixels & counts : 3 640
Flickering pixels iter, pixels & cnts : 1 5 37
cleaning chip # 3
Hot pixels & counts : 3 194
Flickering pixels iter, pixels & cnts : 1 9 49
Number of pixels rejected : 44
Number of (internal) image counts : 30595
Number of image cts rejected (N, %) : 9759 31.90
By chip : 0 1 2 3
Pixels rejected : 7 17 8 12
Image counts : 8590 10105 5564 6336
Image cts rejected: 2780 6059 677 243
Image cts rej (%) : 32.36 59.96 12.17 3.84
Total counts : 8590 10105 5564 6336
Total cts rejected: 2780 6059 677 243
Total cts rej (%) : 32.36 59.96 12.17 3.84
Number of clean counts accepted : 20836
Number of rejected pixels : 44
-> cleansis successful on ae802022010xi3_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 x36 x
2.503195193234325E+08 2.503211600000000E+08 2.503236870000000E+08 2.503237560000000E+08 2.503255340000000E+08 2.503269140000000E+08 2.503294410000000E+08 2.503298650000000E+08 2.503315120000000E+08 2.503326670000000E+08 2.503351950000000E+08 2.503359730000000E+08 2.503374880000000E+08 2.503384210000000E+08 2.503409480000000E+08 2.503421220000000E+08 2.503432990000000E+08 2.503441740000000E+08 2.503467020000000E+08 2.503499280000000E+08 2.503524560000000E+08 2.503556810000000E+08 2.503582090000000E+08 2.503614340000000E+08 2.503639630000000E+08 2.503671874420350E+08 2.503697160000000E+08 2.503729410000000E+08 2.503754700000000E+08 2.503786950000000E+08 2.503813350000000E+08 2.503844480000000E+08 2.503874750000000E+08 2.503902010000000E+08 2.503935810000000E+08 2.503959550000000E+08 2.503996930000000E+08 2.504017080000000E+08 2.504058300000000E+08 2.504074613145146E+08 2.504099920000000E+08 2.504100700000000E+08 2.504118110000000E+08 2.504132150000000E+08 2.504157450000000E+08 2.504161740000000E+08 2.504177880000000E+08 2.504189690000000E+08 2.504214990000000E+08 2.504222900000000E+08 2.504237630000000E+08 2.504247214361669E+08 2.504272520000000E+08 2.504284540000000E+08 2.504295134351556E+08 2.504304750000000E+08 2.504330060000000E+08 2.504362290000000E+08 2.504387590000000E+08 2.504419820000000E+08 2.504445130000000E+08 2.504477360000000E+08 2.504502660000000E+08 2.504534890000000E+08 2.504560200000000E+08 2.504592420000000E+08 2.504617730000000E+08 2.504649960000000E+08 2.504676600000000E+08 2.504707490000000E+08 2.504737870000000E+08 2.504765020000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_1_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
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Total Good Bad: Region Time Phase Grade Cut
5377 2795 0 2582 0 0 0
Writing events file
2795 events written to the output file
Doing file: ae802022010xi3_2_5x5n066z_uf.evt[ ((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287) ]
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Total Good Bad: Region Time Phase Grade Cut
2361 876 0 1485 0 0 0
Writing events file
3671 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
7738 3671 0 4067 0 0 0
in 7664.6 seconds
-> Running cleansis.datafile,s,h,"ae802022010xi3_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 : 3671
cleaning chip # 0
Hot pixels & counts : 2 394
cleaning chip # 1
Hot pixels & counts : 2 860
cleaning chip # 2
Hot pixels & counts : 1 33
cleaning chip # 3
Hot pixels & counts : 1 8
Flickering pixels iter, pixels & cnts : 1 1 5
Number of pixels rejected : 7
Number of (internal) image counts : 3671
Number of image cts rejected (N, %) : 1300 35.41
By chip : 0 1 2 3
Pixels rejected : 2 2 1 2
Image counts : 1058 1336 576 701
Image cts rejected: 394 860 33 13
Image cts rej (%) : 37.24 64.37 5.73 1.85
Total counts : 1058 1336 576 701
Total cts rejected: 394 860 33 13
Total cts rej (%) : 37.24 64.37 5.73 1.85
Number of clean counts accepted : 2371
Number of rejected pixels : 7
-> cleansis successful on ae802022010xi3_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.
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
2.503188690726157E+08 2.504780909270976E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_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)) ]
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Total Good Bad: Region Time Phase Grade Cut
29598 29598 0 0 0 0 0
Writing events file
29598 events written to the output file
Doing file: ae802022010xi1_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)) ]
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Total Good Bad: Region Time Phase Grade Cut
16476 16476 0 0 0 0 0
Writing events file
46074 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
46074 46074 0 0 0 0 0
in 99680. 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
2.503188690726157E+08 2.504780909270976E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_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)) ]
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Total Good Bad: Region Time Phase Grade Cut
4130 4130 0 0 0 0 0
Writing events file
4130 events written to the output file
Doing file: ae802022010xi1_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)) ]
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Total Good Bad: Region Time Phase Grade Cut
3145 3145 0 0 0 0 0
Writing events file
7275 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
7275 7275 0 0 0 0 0
in 15912. 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
2.503188770728580E+08 2.504781549271066E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_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)) ]
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Total Good Bad: Region Time Phase Grade Cut
5893 5893 0 0 0 0 0
Writing events file
5893 events written to the output file
Doing file: ae802022010xi3_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)) ]
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Total Good Bad: Region Time Phase Grade Cut
5625 5625 0 0 0 0 0
Writing events file
11518 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
11518 11518 0 0 0 0 0
in 1.00240E+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
2.503188770728580E+08 2.504781549271066E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_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)) ]
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Total Good Bad: Region Time Phase Grade Cut
959 959 0 0 0 0 0
Writing events file
959 events written to the output file
Doing file: ae802022010xi3_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)) ]
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Total Good Bad: Region Time Phase Grade Cut
459 459 0 0 0 0 0
Writing events file
1418 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
1418 1418 0 0 0 0 0
in 16112. seconds
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 x28 x
2.503214830000000E+08 2.503218670000000E+08 2.503272360000000E+08 2.503276230000000E+08 2.503329900000000E+08 2.503329906947505E+08 2.503329986947482E+08 2.503333794456873E+08 2.503387506941516E+08 2.503391360000000E+08 2.503444960000000E+08 2.503448930000000E+08 2.503502490000000E+08 2.503506490000000E+08 2.503560030000000E+08 2.503564060000000E+08 2.503617554423378E+08 2.503621630000000E+08 2.503675090000000E+08 2.503679200000000E+08 2.503732620000000E+08 2.503736770000000E+08 2.503790160000000E+08 2.503794340000000E+08 2.503847746893694E+08 2.503851910000000E+08 2.503905220000000E+08 2.503909480000000E+08 2.503962750000000E+08 2.503967050000000E+08 2.504020290000000E+08 2.504024620000000E+08 2.504077820000000E+08 2.504082190000000E+08 2.504135426872328E+08 2.504139760000000E+08 2.504192890000000E+08 2.504192946862004E+08 2.504423020000000E+08 2.504423026817703E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_1_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
839663 87678 0 751985 0 0 0
Writing events file
87678 events written to the output file
Doing file: ae802022010xi1_2_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
470641 266 0 470375 0 0 0
Writing events file
87944 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
1310304 87944 0 1222360 0 0 0
in 5066.3 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 x27 x
2.503223400000000E+08 2.503229940000000E+08 2.503280990000000E+08 2.503287380000000E+08 2.503338580000000E+08 2.503345040000000E+08 2.503396170000000E+08 2.503402820000000E+08 2.503453760000000E+08 2.503460194442661E+08 2.503511360000000E+08 2.503517700000000E+08 2.503568950000000E+08 2.503575420000000E+08 2.503626540000000E+08 2.503632910000000E+08 2.503684140000000E+08 2.503690450000000E+08 2.503741730000000E+08 2.503748200000000E+08 2.503799330000000E+08 2.503800866898562E+08 2.503856920000000E+08 2.503858466893850E+08 2.503914520000000E+08 2.503917826889700E+08 2.503972120000000E+08 2.503977410000000E+08 2.504029710000000E+08 2.504036020000000E+08 2.504087310000000E+08 2.504093620000000E+08 2.504144910000000E+08 2.504151230000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_1_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
839663 62495 0 777168 0 0 0
Writing events file
62495 events written to the output file
Doing file: ae802022010xi1_2_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
470641 5385 0 465256 0 0 0
Writing events file
67880 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
1310304 67880 0 1242424 0 0 0
in 7714.5 seconds
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 x28 x
2.503214830000000E+08 2.503218670000000E+08 2.503272360000000E+08 2.503276230000000E+08 2.503329900000000E+08 2.503329906947505E+08 2.503329986947482E+08 2.503333794456873E+08 2.503387506941516E+08 2.503391360000000E+08 2.503444960000000E+08 2.503448930000000E+08 2.503502490000000E+08 2.503506490000000E+08 2.503560030000000E+08 2.503564060000000E+08 2.503617554423378E+08 2.503621630000000E+08 2.503675090000000E+08 2.503679200000000E+08 2.503732620000000E+08 2.503736770000000E+08 2.503790160000000E+08 2.503794340000000E+08 2.503847746893694E+08 2.503851910000000E+08 2.503905220000000E+08 2.503909480000000E+08 2.503962750000000E+08 2.503967050000000E+08 2.504020290000000E+08 2.504024620000000E+08 2.504077820000000E+08 2.504082190000000E+08 2.504135426872328E+08 2.504139760000000E+08 2.504192890000000E+08 2.504192946862004E+08 2.504423020000000E+08 2.504423026817703E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_1_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
152622 18909 0 133713 0 0 0
Writing events file
18909 events written to the output file
Doing file: ae802022010xi1_2_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
74733 13432 0 61301 0 0 0
Writing events file
32341 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
227355 32341 0 195014 0 0 0
in 1905.0 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 x27 x
2.503223400000000E+08 2.503229940000000E+08 2.503280990000000E+08 2.503287380000000E+08 2.503338580000000E+08 2.503345040000000E+08 2.503396170000000E+08 2.503402820000000E+08 2.503453760000000E+08 2.503460194442661E+08 2.503511360000000E+08 2.503517700000000E+08 2.503568950000000E+08 2.503575420000000E+08 2.503626540000000E+08 2.503632910000000E+08 2.503684140000000E+08 2.503690450000000E+08 2.503741730000000E+08 2.503748200000000E+08 2.503799330000000E+08 2.503800866898562E+08 2.503856920000000E+08 2.503858466893850E+08 2.503914520000000E+08 2.503917826889700E+08 2.503972120000000E+08 2.503977410000000E+08 2.504029710000000E+08 2.504036020000000E+08 2.504087310000000E+08 2.504093620000000E+08 2.504144910000000E+08 2.504151230000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_1_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
152622 11091 0 141531 0 0 0
Writing events file
11091 events written to the output file
Doing file: ae802022010xi1_2_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
74733 4806 0 69927 0 0 0
Writing events file
15897 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
227355 15897 0 211458 0 0 0
in 1791.0 seconds
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 x28 x
2.503214830000000E+08 2.503218670000000E+08 2.503272360000000E+08 2.503276230000000E+08 2.503329900000000E+08 2.503329986947493E+08 2.503330386947425E+08 2.503330546947414E+08 2.503330706947382E+08 2.503333794456873E+08 2.503387430000000E+08 2.503387506941529E+08 2.503387586941504E+08 2.503391360000000E+08 2.503444960000000E+08 2.503448930000000E+08 2.503502490000000E+08 2.503506490000000E+08 2.503560030000000E+08 2.503560146922234E+08 2.503560226922208E+08 2.503564060000000E+08 2.503617554423378E+08 2.503621630000000E+08 2.503675090000000E+08 2.503675186909975E+08 2.503675266909951E+08 2.503679200000000E+08 2.503732620000000E+08 2.503736770000000E+08 2.503790160000000E+08 2.503794340000000E+08 2.503847690000000E+08 2.503851910000000E+08 2.503905220000000E+08 2.503909480000000E+08 2.503962750000000E+08 2.503962786884513E+08 2.503963426884415E+08 2.503967050000000E+08 2.504020290000000E+08 2.504020306879466E+08 2.504021186879355E+08 2.504024620000000E+08 2.504077820000000E+08 2.504082190000000E+08 2.504135350000000E+08 2.504135586872322E+08 2.504135826872305E+08 2.504139760000000E+08 2.504192890000000E+08 2.504192946862004E+08 2.504423020000000E+08 2.504423026817703E+08 2.504653150000000E+08 2.504653186777846E+08 2.504710680000000E+08 2.504710786769452E+08 2.504768220000000E+08 2.504768226761442E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_1_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
422379 43324 0 379055 0 0 0
Writing events file
43324 events written to the output file
Doing file: ae802022010xi3_2_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
255002 100 0 254902 0 0 0
Writing events file
43424 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
677381 43424 0 633957 0 0 0
in 5022.7 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 x27 x
2.503223400000000E+08 2.503229940000000E+08 2.503280990000000E+08 2.503287380000000E+08 2.503338580000000E+08 2.503345040000000E+08 2.503396170000000E+08 2.503402820000000E+08 2.503453760000000E+08 2.503460194442661E+08 2.503511360000000E+08 2.503517700000000E+08 2.503568950000000E+08 2.503575420000000E+08 2.503626540000000E+08 2.503632910000000E+08 2.503684140000000E+08 2.503690450000000E+08 2.503741730000000E+08 2.503748200000000E+08 2.503799330000000E+08 2.503800866898562E+08 2.503856920000000E+08 2.503858466893850E+08 2.503914520000000E+08 2.503917826889700E+08 2.503972120000000E+08 2.503977410000000E+08 2.504029710000000E+08 2.504036020000000E+08 2.504087310000000E+08 2.504093620000000E+08 2.504144910000000E+08 2.504151230000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_1_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
422379 31948 0 390431 0 0 0
Writing events file
31948 events written to the output file
Doing file: ae802022010xi3_2_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
255002 2576 0 252426 0 0 0
Writing events file
34524 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
677381 34524 0 642857 0 0 0
in 7714.5 seconds
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 x28 x
2.503214830000000E+08 2.503218670000000E+08 2.503272360000000E+08 2.503276230000000E+08 2.503329900000000E+08 2.503329986947493E+08 2.503330386947425E+08 2.503330546947414E+08 2.503330706947382E+08 2.503333794456873E+08 2.503387430000000E+08 2.503387506941529E+08 2.503387586941504E+08 2.503391360000000E+08 2.503444960000000E+08 2.503448930000000E+08 2.503502490000000E+08 2.503506490000000E+08 2.503560030000000E+08 2.503560146922234E+08 2.503560226922208E+08 2.503564060000000E+08 2.503617554423378E+08 2.503621630000000E+08 2.503675090000000E+08 2.503675186909975E+08 2.503675266909951E+08 2.503679200000000E+08 2.503732620000000E+08 2.503736770000000E+08 2.503790160000000E+08 2.503794340000000E+08 2.503847690000000E+08 2.503851910000000E+08 2.503905220000000E+08 2.503909480000000E+08 2.503962750000000E+08 2.503962786884513E+08 2.503963426884415E+08 2.503967050000000E+08 2.504020290000000E+08 2.504020306879466E+08 2.504021186879355E+08 2.504024620000000E+08 2.504077820000000E+08 2.504082190000000E+08 2.504135350000000E+08 2.504135586872322E+08 2.504135826872305E+08 2.504139760000000E+08 2.504192890000000E+08 2.504192946862004E+08 2.504423020000000E+08 2.504423026817703E+08 2.504653150000000E+08 2.504653186777846E+08 2.504710680000000E+08 2.504710786769452E+08 2.504768220000000E+08 2.504768226761442E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_1_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
74384 7532 0 66852 0 0 0
Writing events file
7532 events written to the output file
Doing file: ae802022010xi3_2_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
32455 7749 0 24706 0 0 0
Writing events file
15281 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
106839 15281 0 91558 0 0 0
in 1736.7 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 x27 x
2.503223400000000E+08 2.503229940000000E+08 2.503280990000000E+08 2.503287380000000E+08 2.503338580000000E+08 2.503345040000000E+08 2.503396170000000E+08 2.503402820000000E+08 2.503453760000000E+08 2.503460194442661E+08 2.503511360000000E+08 2.503517700000000E+08 2.503568950000000E+08 2.503575420000000E+08 2.503626540000000E+08 2.503632910000000E+08 2.503684140000000E+08 2.503690450000000E+08 2.503741730000000E+08 2.503748200000000E+08 2.503799330000000E+08 2.503800866898562E+08 2.503856920000000E+08 2.503858466893850E+08 2.503914520000000E+08 2.503917826889700E+08 2.503972120000000E+08 2.503977410000000E+08 2.504029710000000E+08 2.504036020000000E+08 2.504087310000000E+08 2.504093620000000E+08 2.504144910000000E+08 2.504151230000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_1_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
74384 6120 0 68264 0 0 0
Writing events file
6120 events written to the output file
Doing file: ae802022010xi3_2_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
32455 2588 0 29867 0 0 0
Writing events file
8708 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
106839 8708 0 98131 0 0 0
in 1791.0 seconds
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
-> ae802022010hxd_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
-> ae802022010hxd_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 x37 x
2.503195833234166E+08 2.503214020000000E+08 2.503255980000000E+08 2.503271560000000E+08 2.503294410000000E+08 2.503296840000000E+08 2.503316593222556E+08 2.503316753222515E+08 2.503316913222474E+08 2.503329090000000E+08 2.503351950000000E+08 2.503357920000000E+08 2.503375520000000E+08 2.503386620000000E+08 2.503409480000000E+08 2.503419410000000E+08 2.503433630000000E+08 2.503444160000000E+08 2.503467020000000E+08 2.503501690000000E+08 2.503528880000000E+08 2.503559220000000E+08 2.503588710000000E+08 2.503607650000000E+08 2.503614700000000E+08 2.503616750000000E+08 2.503647630000000E+08 2.503666730000000E+08 2.503705920000000E+08 2.503725920000000E+08 2.503763970000000E+08 2.503785580000000E+08 2.503821540000000E+08 2.503846730000000E+08 2.503877900000000E+08 2.503904420000000E+08 2.503936450000000E+08 2.503961950000000E+08 2.503997570000000E+08 2.504019490000000E+08 2.504058940000000E+08 2.504077020000000E+08 2.504118750000000E+08 2.504134550000000E+08 2.504157450000000E+08 2.504159930000000E+08 2.504179773138464E+08 2.504179853135991E+08 2.504179933135958E+08 2.504180093135894E+08 2.504180173135861E+08 2.504192090000000E+08 2.504214990000000E+08 2.504221090000000E+08 2.504238270000000E+08 2.504249614360984E+08 2.504272520000000E+08 2.504282730000000E+08 2.504295774353736E+08 2.504307150000000E+08 2.504330060000000E+08 2.504364690000000E+08 2.504391820000000E+08 2.504412050000000E+08 2.504415440000000E+08 2.504422220000000E+08 2.504451270000000E+08 2.504470210000000E+08 2.504477750000000E+08 2.504479750000000E+08 2.504510110000000E+08 2.504529340000000E+08 2.504568230000000E+08 2.504588540000000E+08 2.504626030000000E+08 2.504648490000000E+08 2.504683530000000E+08 2.504709890000000E+08 2.504739960000000E+08 2.504767420000000E+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
Doing file: ae802022010hxd_1_wel_uf.evt[ DET_TYPE=0:0 ]
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Total Good Bad: Region Time Phase Grade Cut
2687333 1293612 0 1393721 0 0 0
Writing events file
1293612 events written to the output file
Doing file: ae802022010hxd_2_wel_uf.evt[ DET_TYPE=0:0 ]
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Total Good Bad: Region Time Phase Grade Cut
1684309 1049496 0 634813 0 0 0
Writing events file
2343108 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
4371642 2343108 0 2028534 0 0 0
in 61781. 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
-> ae802022010hxd_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
-> ae802022010hxd_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 x37 x
2.503195833234166E+08 2.503214020000000E+08 2.503255980000000E+08 2.503271560000000E+08 2.503294410000000E+08 2.503296840000000E+08 2.503316593222556E+08 2.503316753222515E+08 2.503316913222474E+08 2.503329090000000E+08 2.503351950000000E+08 2.503357920000000E+08 2.503375520000000E+08 2.503386620000000E+08 2.503409480000000E+08 2.503419410000000E+08 2.503433630000000E+08 2.503444160000000E+08 2.503467020000000E+08 2.503501690000000E+08 2.503528880000000E+08 2.503559220000000E+08 2.503588710000000E+08 2.503607650000000E+08 2.503614700000000E+08 2.503616750000000E+08 2.503647630000000E+08 2.503666730000000E+08 2.503705920000000E+08 2.503725920000000E+08 2.503763970000000E+08 2.503785580000000E+08 2.503821540000000E+08 2.503846730000000E+08 2.503877900000000E+08 2.503904420000000E+08 2.503936450000000E+08 2.503961950000000E+08 2.503997570000000E+08 2.504019490000000E+08 2.504058940000000E+08 2.504077020000000E+08 2.504118750000000E+08 2.504134550000000E+08 2.504157450000000E+08 2.504159930000000E+08 2.504179773138464E+08 2.504179853135991E+08 2.504179933135958E+08 2.504180093135894E+08 2.504180173135861E+08 2.504192090000000E+08 2.504214990000000E+08 2.504221090000000E+08 2.504238270000000E+08 2.504249614360984E+08 2.504272520000000E+08 2.504282730000000E+08 2.504295774353736E+08 2.504307150000000E+08 2.504330060000000E+08 2.504364690000000E+08 2.504391820000000E+08 2.504412050000000E+08 2.504415440000000E+08 2.504422220000000E+08 2.504451270000000E+08 2.504470210000000E+08 2.504477750000000E+08 2.504479750000000E+08 2.504510110000000E+08 2.504529340000000E+08 2.504568230000000E+08 2.504588540000000E+08 2.504626030000000E+08 2.504648490000000E+08 2.504683530000000E+08 2.504709890000000E+08 2.504739960000000E+08 2.504767420000000E+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
Doing file: ae802022010hxd_1_wel_uf.evt[ DET_TYPE=1:1 ]
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Total Good Bad: Region Time Phase Grade Cut
38106 17676 0 20430 0 0 0
Writing events file
17676 events written to the output file
Doing file: ae802022010hxd_2_wel_uf.evt[ DET_TYPE=1:1 ]
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Total Good Bad: Region Time Phase Grade Cut
32961 14152 0 18809 0 0 0
Writing events file
31828 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
71067 31828 0 39239 0 0 0
in 61781. 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 x37 x
2.503195833234166E+08 2.503214020000000E+08 2.503255980000000E+08 2.503271560000000E+08 2.503294410000000E+08 2.503296840000000E+08 2.503316593222556E+08 2.503316753222515E+08 2.503316913222474E+08 2.503329090000000E+08 2.503351950000000E+08 2.503357920000000E+08 2.503375520000000E+08 2.503386620000000E+08 2.503409480000000E+08 2.503419410000000E+08 2.503433630000000E+08 2.503444160000000E+08 2.503467020000000E+08 2.503501690000000E+08 2.503528880000000E+08 2.503559220000000E+08 2.503588710000000E+08 2.503607650000000E+08 2.503614700000000E+08 2.503616750000000E+08 2.503647630000000E+08 2.503666730000000E+08 2.503705920000000E+08 2.503725920000000E+08 2.503763970000000E+08 2.503785580000000E+08 2.503821540000000E+08 2.503846730000000E+08 2.503877900000000E+08 2.503904420000000E+08 2.503936450000000E+08 2.503961950000000E+08 2.503997570000000E+08 2.504019490000000E+08 2.504058940000000E+08 2.504077020000000E+08 2.504118750000000E+08 2.504134550000000E+08 2.504157450000000E+08 2.504159930000000E+08 2.504179773138464E+08 2.504179853135991E+08 2.504179933135958E+08 2.504180093135894E+08 2.504180173135861E+08 2.504192090000000E+08 2.504214990000000E+08 2.504221090000000E+08 2.504238270000000E+08 2.504249614360984E+08 2.504272520000000E+08 2.504282730000000E+08 2.504295774353736E+08 2.504307150000000E+08 2.504330060000000E+08 2.504364690000000E+08 2.504391820000000E+08 2.504412050000000E+08 2.504415440000000E+08 2.504422220000000E+08 2.504451270000000E+08 2.504470210000000E+08 2.504477750000000E+08 2.504479750000000E+08 2.504510110000000E+08 2.504529340000000E+08 2.504568230000000E+08 2.504588540000000E+08 2.504626030000000E+08 2.504648490000000E+08 2.504683530000000E+08 2.504709890000000E+08 2.504739960000000E+08 2.504767420000000E+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
Doing file: ae802022010hxd_1_wel_uf.evt[ DET_TYPE=2:2 ]
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Total Good Bad: Region Time Phase Grade Cut
330833 126398 0 204435 0 0 0
Writing events file
126398 events written to the output file
Doing file: ae802022010hxd_2_wel_uf.evt[ DET_TYPE=2:2 ]
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Total Good Bad: Region Time Phase Grade Cut
266238 103439 0 162799 0 0 0
Writing events file
229837 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
597071 229837 0 367234 0 0 0
in 61781. 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.
ELV < 0-> gti_extractor_11.tmp x34 x
2.502876530000000E+08 2.502897150000000E+08 2.502934050000000E+08 2.502954680000000E+08 2.502991570000000E+08 2.503012220000000E+08 2.503049090000000E+08 2.503069750000000E+08 2.503106610000000E+08 2.503127280000000E+08 2.503164140000000E+08 2.503183880000000E+08 2.503214830000000E+08 2.503236070000000E+08 2.503272360000000E+08 2.503293600000000E+08 2.503329900000000E+08 2.503351140000000E+08 2.503387430000000E+08 2.503408674449900E+08 2.503444960000000E+08 2.503466210000000E+08 2.503502490000000E+08 2.503523750000000E+08 2.503560030000000E+08 2.503581290000000E+08 2.503617554423378E+08 2.503638820000000E+08 2.503675090000000E+08 2.503696354418605E+08 2.503732620000000E+08 2.503753900000000E+08 2.503790160000000E+08 2.503811430000000E+08 2.503847690000000E+08 2.503868970000000E+08 2.503905220000000E+08 2.503926500000000E+08 2.503962750000000E+08 2.503984040000000E+08 2.504020290000000E+08 2.504041580000000E+08 2.504077820000000E+08 2.504099110000000E+08 2.504135350000000E+08 2.504156650000000E+08 2.504192890000000E+08 2.504214180000000E+08 2.504250414358344E+08 2.504271720000000E+08 2.504307950000000E+08 2.504329250000000E+08 2.504365490000000E+08 2.504386790000000E+08 2.504423020000000E+08 2.504444320000000E+08 2.504480550000000E+08 2.504501860000000E+08 2.504538080000000E+08 2.504559400000000E+08 2.504595614294424E+08 2.504616930000000E+08 2.504653150000000E+08 2.504674470000000E+08 2.504710680000000E+08 2.504732000000000E+08 2.504768220000000E+08 2.504783060000000E+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
Doing file: ae802022010hxd_1_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
10214193 3605064 0 6609129 0 0 0
Writing events file
3605064 events written to the output file
Doing file: ae802022010hxd_2_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
7089481 1527695 0 5561786 0 0 0
Writing events file
5132759 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
17303674 5132759 0 12170915 0 0 0
in 58826. 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: ae802022010hxd_0_gsono_cl.evt
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100% completed
Total Good Bad: Region Time Phase Grade Cut
2343108 2343108 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
2343108 2343108 0 0 0 0 0
in 61781. seconds
Spectrum has 2343108 counts for 37.93 counts/sec
... written the PHA data Extension
-> Grouping ae802022010hxd_0_gsono_sr.pi.infile,s,h,"ae802022010hxd_0_gsono_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_gsoxinom_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 - 61781. 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_SLOW Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 512 No. of legal detector channels NCHAN - 512 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 - 1 are grouped by a factor 2 ... 2 - 388 are single channels ... 389 - 392 are grouped by a factor 2 ... 393 - 511 are single channels ... --------------------------------------------- ... QUALITY ... ... ------- ... QUALITY ... ------- ... Bad Channels (Channel - Channel) ... --------------------------------------------- ... 393 - 511 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 ae802022010hxd_0_gsono_sr.pi.
event_fname,f,a,"@hxddtcor.list",,,"HXD unscreened event FITS file name? (@flist of files or file name)" pi_fname,s,a,"ae802022010hxd_0_gsono_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 2 evt file(s) and 1 spec file(s). hxddtcor: event No.1 = ae802022010hxd_1_wel_uf.evt hxddtcor: event No.2 = ae802022010hxd_2_wel_uf.evt hxddtcor: spec = ae802022010hxd_0_gsono_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: process ae802022010hxd_0_gsono_sr.pi ========================== hxddtcor: current exposure = 61781.04 hxddtcor: make pseudo list ae802022010hxd_1_wel_uf.evt (31599.50 sec) hxddtcor: make pseudo list ae802022010hxd_2_wel_uf.evt (25859.75 sec) EXPOSURE 57459.250000 / 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]= ae802022010hxd_1_wel_uf.evt hxddtcor: event file[1]= ae802022010hxd_2_wel_uf.evt hxddtcor: save pseudo = no hxddtcor: EXPOSURE changed from 61781.04 to 31599.50+25859.75= 57459.25 hxddtcor: Live time is 93.0 %. Checksum keywords updated successfully. hxddtcor: process done.-> hxddtcor successful for ae802022010hxd_0_gsono_sr.pi.
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: ae802022010hxd_0_pinno_cl.evt
10% completed
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90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
31828 31828 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
31828 31828 0 0 0 0 0
in 61781. seconds
Spectrum has 31828 counts for 0.5152 counts/sec
... written the PHA data Extension
-> Grouping ae802022010hxd_0_pinno_sr.pi.infile,s,h,"ae802022010hxd_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 - 61781. 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 - 28 are grouped by a factor 29 ... 29 - 157 are single channels ... 158 - 159 are grouped by a factor 2 ... 160 - 203 are single channels ... 204 - 227 are grouped by a factor 24 ... 228 - 255 are single channels ... --------------------------------------------- ... QUALITY ... ... ------- ... QUALITY ... ------- ... Bad Channels (Channel - Channel) ... --------------------------------------------- ... 228 - 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 ae802022010hxd_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,"ae802022010hxd_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 2 evt file(s) and 1 spec file(s). hxddtcor: event No.1 = ae802022010hxd_1_wel_uf.evt hxddtcor: event No.2 = ae802022010hxd_2_wel_uf.evt hxddtcor: spec = ae802022010hxd_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: process ae802022010hxd_0_pinno_sr.pi ========================== hxddtcor: current exposure = 61781.04 hxddtcor: make pseudo list ae802022010hxd_1_wel_uf.evt (31599.50 sec) hxddtcor: make pseudo list ae802022010hxd_2_wel_uf.evt (25859.75 sec) EXPOSURE 57459.250000 / 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]= ae802022010hxd_1_wel_uf.evt hxddtcor: event file[1]= ae802022010hxd_2_wel_uf.evt hxddtcor: save pseudo = no hxddtcor: EXPOSURE changed from 61781.04 to 31599.50+25859.75= 57459.25 hxddtcor: Live time is 93.0 %. Checksum keywords updated successfully. hxddtcor: process done.-> hxddtcor successful for ae802022010hxd_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 1:1 ae802022010hxd_0_gsono_sr.pi;
***Warning: Detected response matrix energy bin value = 0 (or neg).
XSPEC will instead use small finite value (response file will not be altered).
Warning: RMF CHANTYPE keyword is not consistent with spectrum
1 spectrum in use
Spectral Data File: ae802022010hxd_0_gsono_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 4.078e+01 +/- 2.664e-02
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-509
Telescope: SUZAKU Instrument: HXD Channel Type: PI
Exposure Time: 5.746e+04 sec
Using Response (RMF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/hxd/cpf/ae_hxd_gsoxinom_20080129.rsp for Source 1
!XSPEC12>data 2:2 ae802022010hxd_0_pinno_sr.pi;
Warning: RMF CHANTYPE keyword is not consistent with spectrum
2 spectra in use
Spectral Data File: ae802022010hxd_0_pinno_sr.pi Spectrum 2
Net count rate (cts/s) for Spectrum:2 5.539e-01 +/- 3.105e-03
Assigned to Data Group 2 and Plot Group 2
Noticed Channels: 1-204
Telescope: SUZAKU Instrument: HXD Channel Type: PI
Exposure Time: 5.746e+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: 119 channels ignored from source number 1
ignore: 28 channels ignored from source number 2
!XSPEC12>ignore *:**-10.0 600.0-**;
4 channels (1-4) ignored in spectrum # 1
1 channels (1) ignored in spectrum # 2
211 channels (299-509) ignored in spectrum # 1
No channels ignored (no channels in specified range)
!XSPEC12>setplot splashpage off;
!XSPEC12>setplot energy;
!XSPEC12>setplot device ae802022010hxd_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 4636 NORTH (Sequence 802022010);
!XSPEC12>setplot com label file Exposure time: 114.9ks (total from all detectors);
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae802022010hxd_0_wel_pi.gif.Input sky coordinates: 1.9068280000000E+02, 3.0503000000000E+00 Output pixel coordinates: 7.6987973500293E+02, 7.5053799675273E+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,"ae802022010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,190.683240454954,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,86.944532709041,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,338.003346695165,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"190.6832",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"3.0555",,,"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,"250318868.000000",,,"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,190.682799930823,,,"R.A. (J2000) in deg" deltaJ2000,r,a,3.05030067935031,,,"DEC. (J2000) in deg" alphaB1950,r,a,190.044921811468,,,"R.A. (B1950) in deg" deltaB1950,r,a,3.32415087761267,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00238477382021074,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.0003276795441014,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,8.6538025831341,,,"angular difference in arcsec by aberration" l,r,a,297.616492291718,,,"Galactic longitude (deg)" b,r,a,65.8321506784176,,,"Galactic latitude (deg)" x,r,a,769.88,,,"X value of SKY coorindates (pixel)" y,r,a,750.54,,,"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,769.879808360007,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,750.542494098041,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,753.41667792987,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,781.825054921791,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,113.41667792987,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,141.825054921791,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.349633861700776,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-138.541664684416,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,769.87999952089,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,750.540006236108,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,753.414588262017,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,781.826900996468,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,954.911588262017,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,781.826900996468,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.24617159500376,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.08922141365636,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,769.880000000057,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,750.539999999999,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,753.414583024027,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,781.826905623864,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,493.914583024027,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,514.326905623864,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,530,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,513,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,18,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,513,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,20,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,513,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.60547818075844,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.510794758967,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,769.880000000057,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,750.539999999999,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,753.414583024027,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,781.826905623864,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,493.914583024027,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,519.326905623864,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,518,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,493,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,6,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,493,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,8,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,493,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.23886548118407,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-139.069705128718,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,769.880000000057,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,750.539999999999,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,753.414583024027,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,781.826905623864,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,496.914583024027,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,508.326905623864,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,516,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,527,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,4,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,527,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,6,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,527,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.303171046606652,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,3.85377972729657,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,769.880000000057,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,750.539999999999,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,753.414583024027,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,781.826905623864,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,485.914583024027,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,522.326905623864,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,538,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,521,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,26,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,521,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,28,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,521,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.505244292691693,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,53.4692772584009,,,"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 769.880 (pixel)
Y 750.540 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae802022010xi1_0_3x3n069b_cl.evt+1'
EA1 190.683240454954 (deg)
EA2 86.944532709041 (deg)
EA3 338.003346695165 (deg)
REF_ALPHA 190.6832 (deg) / 12h42m44.0s
REF_DELTA 3.0555 (deg) / +3d03m20s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 250318868.000 / 2007-12-07T05:01:07 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 ( 190.6828 , 3.0503 ) [deg] / ( 12h42m43.9s , +3d03m01s )
B1950 ( 190.0449 , 3.3242 ) [deg] / ( 12h40m10.8s , +3d19m27s )
Galactic ( 297.6165 , 65.8322 ) [deg]
Aberration ( -8.5852 , 1.1796 ) [arcsec], Ang.Distance = 8.6538
XRS SKY ( 769.8798 , 750.5425 ) [pixel]
XRS FOC ( 753.4167 , 781.8251 ) [pixel]
XRS DET ( 113.4167 , 141.8251 ) [pixel]
XRS THETA/PHI 0.3496 [arcmin] / -138.5417 [deg]
XRS PIXEL = 8
HXD SKY ( 769.8800 , 750.5400 ) [pixel]
HXD FOC ( 753.4146 , 781.8269 ) [pixel]
HXD DET ( 954.9116 , 781.8269 ) [pixel]
HXD THETA/PHI 3.2462 [arcmin] / -4.0892 [deg]
XIS0 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS0 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS0 DET ( 493.9146 , 514.3269 ) [pixel]
XIS0 ACT ( 530 , 513 ) [pixel]
XIS0 RAW ( 18 , 513 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 20 , 513 ) [pixel]
XIS0 THETA/PHI 1.6055 [arcmin] / -169.5108 [deg]
XIS1 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS1 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS1 DET ( 493.9146 , 519.3269 ) [pixel]
XIS1 ACT ( 518 , 493 ) [pixel]
XIS1 RAW ( 6 , 493 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 8 , 493 ) [pixel]
XIS1 THETA/PHI 1.2389 [arcmin] / -139.0697 [deg]
XIS2 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS2 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS2 DET ( 496.9146 , 508.3269 ) [pixel]
XIS2 ACT ( 516 , 527 ) [pixel]
XIS2 RAW ( 4 , 527 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 6 , 527 ) [pixel]
XIS2 THETA/PHI 0.3032 [arcmin] / 3.8538 [deg]
XIS3 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS3 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS3 DET ( 485.9146 , 522.3269 ) [pixel]
XIS3 ACT ( 538 , 521 ) [pixel]
XIS3 RAW ( 26 , 521 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 28 , 521 ) [pixel]
XIS3 THETA/PHI 0.5052 [arcmin] / 53.4693 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae802022010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(769,750,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_0_3x3n069b_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
91795 17914 73881 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
91795 17914 73881 0 0 0 0
in 63765. seconds
Spectrum has 17913 counts for 0.2809 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_0_3x3n069b_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
91795 27153 64642 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
91795 27153 64642 0 0 0 0
in 63765. seconds
Spectrum has 27152 counts for 0.4258 counts/sec
... written the PHA data Extension
-> Creating RMF for ae802022010xi1_0_3x3n069b_sr.piinfile,s,h,"ae802022010xi1_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 ae802022010xi1_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 - 63765. 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 - 45 are single channels ... 46 - 47 are grouped by a factor 2 ... 48 - 48 are single channels ... 49 - 52 are grouped by a factor 2 ... 53 - 53 are single channels ... 54 - 67 are grouped by a factor 2 ... 68 - 70 are grouped by a factor 3 ... 71 - 76 are grouped by a factor 2 ... 77 - 79 are grouped by a factor 3 ... 80 - 83 are grouped by a factor 4 ... 84 - 88 are grouped by a factor 5 ... 89 - 104 are grouped by a factor 8 ... 105 - 110 are grouped by a factor 6 ... 111 - 125 are grouped by a factor 5 ... 126 - 133 are grouped by a factor 4 ... 134 - 138 are grouped by a factor 5 ... 139 - 142 are grouped by a factor 4 ... 143 - 147 are grouped by a factor 5 ... 148 - 155 are grouped by a factor 4 ... 156 - 159 are grouped by a factor 2 ... 160 - 163 are grouped by a factor 4 ... 164 - 166 are grouped by a factor 3 ... 167 - 171 are grouped by a factor 5 ... 172 - 174 are grouped by a factor 3 ... 175 - 176 are grouped by a factor 2 ... 177 - 185 are grouped by a factor 3 ... 186 - 189 are grouped by a factor 2 ... 190 - 192 are grouped by a factor 3 ... 193 - 194 are grouped by a factor 2 ... 195 - 197 are grouped by a factor 3 ... 198 - 213 are grouped by a factor 2 ... 214 - 216 are grouped by a factor 3 ... 217 - 217 are single channels ... 218 - 225 are grouped by a factor 2 ... 226 - 226 are single channels ... 227 - 230 are grouped by a factor 2 ... 231 - 231 are single channels ... 232 - 239 are grouped by a factor 2 ... 240 - 242 are single channels ... 243 - 244 are grouped by a factor 2 ... 245 - 245 are single channels ... 246 - 251 are grouped by a factor 2 ... 252 - 252 are single channels ... 253 - 262 are grouped by a factor 2 ... 263 - 263 are single channels ... 264 - 275 are grouped by a factor 2 ... 276 - 278 are grouped by a factor 3 ... 279 - 282 are grouped by a factor 2 ... 283 - 285 are grouped by a factor 3 ... 286 - 289 are grouped by a factor 2 ... 290 - 301 are grouped by a factor 3 ... 302 - 305 are grouped by a factor 4 ... 306 - 320 are grouped by a factor 3 ... 321 - 325 are grouped by a factor 5 ... 326 - 331 are grouped by a factor 3 ... 332 - 351 are grouped by a factor 4 ... 352 - 356 are grouped by a factor 5 ... 357 - 364 are grouped by a factor 4 ... 365 - 367 are grouped by a factor 3 ... 368 - 373 are grouped by a factor 6 ... 374 - 383 are grouped by a factor 5 ... 384 - 387 are grouped by a factor 4 ... 388 - 392 are grouped by a factor 5 ... 393 - 400 are grouped by a factor 4 ... 401 - 405 are grouped by a factor 5 ... 406 - 435 are grouped by a factor 6 ... 436 - 451 are grouped by a factor 8 ... 452 - 463 are grouped by a factor 12 ... 464 - 472 are grouped by a factor 9 ... 473 - 480 are grouped by a factor 8 ... 481 - 486 are grouped by a factor 6 ... 487 - 493 are grouped by a factor 7 ... 494 - 501 are grouped by a factor 8 ... 502 - 513 are grouped by a factor 6 ... 514 - 522 are grouped by a factor 9 ... 523 - 544 are grouped by a factor 11 ... 545 - 564 are grouped by a factor 10 ... 565 - 572 are grouped by a factor 8 ... 573 - 583 are grouped by a factor 11 ... 584 - 603 are grouped by a factor 10 ... 604 - 620 are grouped by a factor 17 ... 621 - 635 are grouped by a factor 15 ... 636 - 651 are grouped by a factor 16 ... 652 - 677 are grouped by a factor 26 ... 678 - 696 are grouped by a factor 19 ... 697 - 724 are grouped by a factor 28 ... 725 - 744 are grouped by a factor 20 ... 745 - 763 are grouped by a factor 19 ... 764 - 785 are grouped by a factor 22 ... 786 - 821 are grouped by a factor 18 ... 822 - 838 are grouped by a factor 17 ... 839 - 860 are grouped by a factor 22 ... 861 - 880 are grouped by a factor 20 ... 881 - 897 are grouped by a factor 17 ... 898 - 923 are grouped by a factor 26 ... 924 - 948 are grouped by a factor 25 ... 949 - 964 are grouped by a factor 16 ... 965 - 982 are grouped by a factor 18 ... 983 - 999 are grouped by a factor 17 ... 1000 - 1022 are grouped by a factor 23 ... 1023 - 1057 are grouped by a factor 35 ... 1058 - 1081 are grouped by a factor 24 ... 1082 - 1109 are grouped by a factor 28 ... 1110 - 1142 are grouped by a factor 33 ... 1143 - 1174 are grouped by a factor 32 ... 1175 - 1209 are grouped by a factor 35 ... 1210 - 1238 are grouped by a factor 29 ... 1239 - 1266 are grouped by a factor 28 ... 1267 - 1308 are grouped by a factor 42 ... 1309 - 1347 are grouped by a factor 39 ... 1348 - 1368 are grouped by a factor 21 ... 1369 - 1403 are grouped by a factor 35 ... 1404 - 1443 are grouped by a factor 40 ... 1444 - 1469 are grouped by a factor 26 ... 1470 - 1533 are grouped by a factor 32 ... 1534 - 1572 are grouped by a factor 39 ... 1573 - 1617 are grouped by a factor 45 ... 1618 - 1652 are grouped by a factor 35 ... 1653 - 1693 are grouped by a factor 41 ... 1694 - 1729 are grouped by a factor 36 ... 1730 - 1768 are grouped by a factor 39 ... 1769 - 1828 are grouped by a factor 60 ... 1829 - 1854 are grouped by a factor 26 ... 1855 - 1885 are grouped by a factor 31 ... 1886 - 1934 are grouped by a factor 49 ... 1935 - 1968 are grouped by a factor 34 ... 1969 - 1997 are grouped by a factor 29 ... 1998 - 2021 are grouped by a factor 24 ... 2022 - 2033 are grouped by a factor 12 ... 2034 - 2044 are grouped by a factor 11 ... 2045 - 2056 are grouped by a factor 12 ... 2057 - 2070 are grouped by a factor 14 ... 2071 - 2085 are grouped by a factor 15 ... 2086 - 2099 are grouped by a factor 14 ... 2100 - 2121 are grouped by a factor 22 ... 2122 - 2135 are grouped by a factor 14 ... 2136 - 2173 are grouped by a factor 19 ... 2174 - 2193 are grouped by a factor 20 ... 2194 - 2210 are grouped by a factor 17 ... 2211 - 2226 are grouped by a factor 16 ... 2227 - 2247 are grouped by a factor 21 ... 2248 - 2259 are grouped by a factor 12 ... 2260 - 2269 are grouped by a factor 10 ... 2270 - 2288 are grouped by a factor 19 ... 2289 - 2303 are grouped by a factor 15 ... 2304 - 2317 are grouped by a factor 14 ... 2318 - 2329 are grouped by a factor 12 ... 2330 - 2340 are grouped by a factor 11 ... 2341 - 2353 are grouped by a factor 13 ... 2354 - 2362 are grouped by a factor 9 ... 2363 - 2377 are grouped by a factor 15 ... 2378 - 2389 are grouped by a factor 12 ... 2390 - 2403 are grouped by a factor 14 ... 2404 - 2414 are grouped by a factor 11 ... 2415 - 2434 are grouped by a factor 10 ... 2435 - 2452 are grouped by a factor 9 ... 2453 - 2459 are grouped by a factor 7 ... 2460 - 2473 are grouped by a factor 14 ... 2474 - 2482 are grouped by a factor 9 ... 2483 - 2492 are grouped by a factor 10 ... 2493 - 2525 are grouped by a factor 11 ... 2526 - 2538 are grouped by a factor 13 ... 2539 - 2548 are grouped by a factor 10 ... 2549 - 2561 are grouped by a factor 13 ... 2562 - 2569 are grouped by a factor 8 ... 2570 - 2582 are grouped by a factor 13 ... 2583 - 2591 are grouped by a factor 9 ... 2592 - 2598 are grouped by a factor 7 ... 2599 - 2618 are grouped by a factor 10 ... 2619 - 2623 are grouped by a factor 5 ... 2624 - 2629 are grouped by a factor 6 ... 2630 - 2634 are grouped by a factor 5 ... 2635 - 2652 are grouped by a factor 6 ... 2653 - 2662 are grouped by a factor 5 ... 2663 - 2672 are grouped by a factor 10 ... 2673 - 2686 are grouped by a factor 7 ... 2687 - 2695 are grouped by a factor 9 ... 2696 - 2702 are grouped by a factor 7 ... 2703 - 2710 are grouped by a factor 8 ... 2711 - 2716 are grouped by a factor 6 ... 2717 - 2723 are grouped by a factor 7 ... 2724 - 2728 are grouped by a factor 5 ... 2729 - 2736 are grouped by a factor 8 ... 2737 - 2742 are grouped by a factor 6 ... 2743 - 2750 are grouped by a factor 8 ... 2751 - 2755 are grouped by a factor 5 ... 2756 - 2761 are grouped by a factor 6 ... 2762 - 2769 are grouped by a factor 8 ... 2770 - 2775 are grouped by a factor 6 ... 2776 - 2786 are grouped by a factor 11 ... 2787 - 2796 are grouped by a factor 10 ... 2797 - 2814 are grouped by a factor 6 ... 2815 - 2828 are grouped by a factor 7 ... 2829 - 2833 are grouped by a factor 5 ... 2834 - 2839 are grouped by a factor 6 ... 2840 - 2853 are grouped by a factor 7 ... 2854 - 2858 are grouped by a factor 5 ... 2859 - 2865 are grouped by a factor 7 ... 2866 - 2873 are grouped by a factor 8 ... 2874 - 2880 are grouped by a factor 7 ... 2881 - 2886 are grouped by a factor 6 ... 2887 - 2900 are grouped by a factor 7 ... 2901 - 2916 are grouped by a factor 8 ... 2917 - 2922 are grouped by a factor 6 ... 2923 - 2929 are grouped by a factor 7 ... 2930 - 2933 are grouped by a factor 4 ... 2934 - 2940 are grouped by a factor 7 ... 2941 - 2952 are grouped by a factor 6 ... 2953 - 2959 are grouped by a factor 7 ... 2960 - 2965 are grouped by a factor 6 ... 2966 - 2970 are grouped by a factor 5 ... 2971 - 2994 are grouped by a factor 6 ... 2995 - 2999 are grouped by a factor 5 ... 3000 - 3007 are grouped by a factor 8 ... 3008 - 3013 are grouped by a factor 6 ... 3014 - 3020 are grouped by a factor 7 ... 3021 - 3032 are grouped by a factor 6 ... 3033 - 3039 are grouped by a factor 7 ... 3040 - 3044 are grouped by a factor 5 ... 3045 - 3052 are grouped by a factor 4 ... 3053 - 3059 are grouped by a factor 7 ... 3060 - 3065 are grouped by a factor 6 ... 3066 - 3073 are grouped by a factor 8 ... 3074 - 3078 are grouped by a factor 5 ... 3079 - 3084 are grouped by a factor 6 ... 3085 - 3089 are grouped by a factor 5 ... 3090 - 3093 are grouped by a factor 4 ... 3094 - 3103 are grouped by a factor 5 ... 3104 - 3109 are grouped by a factor 6 ... 3110 - 3114 are grouped by a factor 5 ... 3115 - 3120 are grouped by a factor 6 ... 3121 - 3130 are grouped by a factor 5 ... 3131 - 3142 are grouped by a factor 6 ... 3143 - 3147 are grouped by a factor 5 ... 3148 - 3153 are grouped by a factor 6 ... 3154 - 3167 are grouped by a factor 7 ... 3168 - 3173 are grouped by a factor 6 ... 3174 - 3177 are grouped by a factor 4 ... 3178 - 3182 are grouped by a factor 5 ... 3183 - 3188 are grouped by a factor 6 ... 3189 - 3196 are grouped by a factor 4 ... 3197 - 3201 are grouped by a factor 5 ... 3202 - 3213 are grouped by a factor 6 ... 3214 - 3221 are grouped by a factor 4 ... 3222 - 3236 are grouped by a factor 5 ... 3237 - 3240 are grouped by a factor 4 ... 3241 - 3255 are grouped by a factor 5 ... 3256 - 3263 are grouped by a factor 8 ... 3264 - 3268 are grouped by a factor 5 ... 3269 - 3280 are grouped by a factor 6 ... 3281 - 3285 are grouped by a factor 5 ... 3286 - 3321 are grouped by a factor 6 ... 3322 - 3331 are grouped by a factor 5 ... 3332 - 3345 are grouped by a factor 7 ... 3346 - 3355 are grouped by a factor 5 ... 3356 - 3367 are grouped by a factor 6 ... 3368 - 3374 are grouped by a factor 7 ... 3375 - 3386 are grouped by a factor 6 ... 3387 - 3391 are grouped by a factor 5 ... 3392 - 3397 are grouped by a factor 6 ... 3398 - 3401 are grouped by a factor 4 ... 3402 - 3407 are grouped by a factor 6 ... 3408 - 3412 are grouped by a factor 5 ... 3413 - 3419 are grouped by a factor 7 ... 3420 - 3429 are grouped by a factor 5 ... 3430 - 3447 are grouped by a factor 6 ... 3448 - 3452 are grouped by a factor 5 ... 3453 - 3458 are grouped by a factor 6 ... 3459 - 3462 are grouped by a factor 4 ... 3463 - 3480 are grouped by a factor 6 ... 3481 - 3485 are grouped by a factor 5 ... 3486 - 3492 are grouped by a factor 7 ... 3493 - 3502 are grouped by a factor 5 ... 3503 - 3508 are grouped by a factor 6 ... 3509 - 3523 are grouped by a factor 5 ... 3524 - 3529 are grouped by a factor 6 ... 3530 - 3534 are grouped by a factor 5 ... 3535 - 3538 are grouped by a factor 4 ... 3539 - 3544 are grouped by a factor 6 ... 3545 - 3549 are grouped by a factor 5 ... 3550 - 3555 are grouped by a factor 6 ... 3556 - 3562 are grouped by a factor 7 ... 3563 - 3571 are grouped by a factor 9 ... 3572 - 3578 are grouped by a factor 7 ... 3579 - 3584 are grouped by a factor 6 ... 3585 - 3591 are grouped by a factor 7 ... 3592 - 3601 are grouped by a factor 5 ... 3602 - 3605 are grouped by a factor 4 ... 3606 - 3611 are grouped by a factor 6 ... 3612 - 3620 are grouped by a factor 9 ... 3621 - 3627 are grouped by a factor 7 ... 3628 - 3633 are grouped by a factor 6 ... 3634 - 3638 are grouped by a factor 5 ... 3639 - 3645 are grouped by a factor 7 ... 3646 - 3651 are grouped by a factor 6 ... 3652 - 3656 are grouped by a factor 5 ... 3657 - 3662 are grouped by a factor 6 ... 3663 - 3667 are grouped by a factor 5 ... 3668 - 3685 are grouped by a factor 6 ... 3686 - 3692 are grouped by a factor 7 ... 3693 - 3700 are grouped by a factor 8 ... 3701 - 3706 are grouped by a factor 6 ... 3707 - 3711 are grouped by a factor 5 ... 3712 - 3719 are grouped by a factor 8 ... 3720 - 3724 are grouped by a factor 5 ... 3725 - 3731 are grouped by a factor 7 ... 3732 - 3737 are grouped by a factor 6 ... 3738 - 3744 are grouped by a factor 7 ... 3745 - 3749 are grouped by a factor 5 ... 3750 - 3758 are grouped by a factor 9 ... 3759 - 3773 are grouped by a factor 5 ... 3774 - 3779 are grouped by a factor 6 ... 3780 - 3786 are grouped by a factor 7 ... 3787 - 3798 are grouped by a factor 6 ... 3799 - 3803 are grouped by a factor 5 ... 3804 - 3817 are grouped by a factor 7 ... 3818 - 3825 are grouped by a factor 8 ... 3826 - 3832 are grouped by a factor 7 ... 3833 - 3840 are grouped by a factor 8 ... 3841 - 3846 are grouped by a factor 6 ... 3847 - 3854 are grouped by a factor 8 ... 3855 - 3860 are grouped by a factor 6 ... 3861 - 3869 are grouped by a factor 9 ... 3870 - 3876 are grouped by a factor 7 ... 3877 - 3881 are grouped by a factor 5 ... 3882 - 3887 are grouped by a factor 6 ... 3888 - 3895 are grouped by a factor 8 ... 3896 - 3902 are grouped by a factor 7 ... 3903 - 3908 are grouped by a factor 6 ... 3909 - 3913 are grouped by a factor 5 ... 3914 - 3922 are grouped by a factor 9 ... 3923 - 3934 are grouped by a factor 6 ... 3935 - 3941 are grouped by a factor 7 ... 3942 - 3950 are grouped by a factor 9 ... 3951 - 3954 are grouped by a factor 4 ... 3955 - 3961 are grouped by a factor 7 ... 3962 - 3969 are grouped by a factor 8 ... 3970 - 3978 are grouped by a factor 9 ... 3979 - 3984 are grouped by a factor 6 ... 3985 - 3992 are grouped by a factor 8 ... 3993 - 3998 are grouped by a factor 6 ... 3999 - 4005 are grouped by a factor 7 ... 4006 - 4018 are grouped by a factor 13 ... 4019 - 4026 are grouped by a factor 8 ... 4027 - 4032 are grouped by a factor 6 ... 4033 - 4046 are grouped by a factor 7 ... 4047 - 4052 are grouped by a factor 6 ... 4053 - 4064 are grouped by a factor 12 ... 4065 - 4072 are grouped by a factor 8 ... 4073 - 4081 are grouped by a factor 9 ... 4082 - 4089 are grouped by a factor 8 ... 4090 - 4095 are grouped by a factor 6 ... --------------------------------------------- ... 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 ae802022010xi1_0_3x3n069b_sr.pi.
Input sky coordinates: 1.9068280000000E+02, 3.0503000000000E+00 Output pixel coordinates: 7.6987973500293E+02, 7.5053799675273E+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,"ae802022010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,190.683240454954,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,86.944532709041,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,338.003346695165,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"190.6832",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"3.0555",,,"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,"250318868.000000",,,"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,190.682799930823,,,"R.A. (J2000) in deg" deltaJ2000,r,a,3.05030067935031,,,"DEC. (J2000) in deg" alphaB1950,r,a,190.044921811468,,,"R.A. (B1950) in deg" deltaB1950,r,a,3.32415087761267,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00238477382021074,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.0003276795441014,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,8.6538025831341,,,"angular difference in arcsec by aberration" l,r,a,297.616492291718,,,"Galactic longitude (deg)" b,r,a,65.8321506784176,,,"Galactic latitude (deg)" x,r,a,769.88,,,"X value of SKY coorindates (pixel)" y,r,a,750.54,,,"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,769.879808360007,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,750.542494098041,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,753.41667792987,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,781.825054921791,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,113.41667792987,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,141.825054921791,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.349633861700776,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-138.541664684416,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,769.87999952089,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,750.540006236108,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,753.414588262017,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,781.826900996468,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,954.911588262017,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,781.826900996468,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.24617159500376,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.08922141365636,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,769.880000000057,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,750.539999999999,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,753.414583024027,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,781.826905623864,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,493.914583024027,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,514.326905623864,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,530,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,513,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,18,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,513,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,20,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,513,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.60547818075844,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.510794758967,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,769.880000000057,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,750.539999999999,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,753.414583024027,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,781.826905623864,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,493.914583024027,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,519.326905623864,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,518,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,493,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,6,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,493,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,8,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,493,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.23886548118407,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-139.069705128718,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,769.880000000057,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,750.539999999999,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,753.414583024027,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,781.826905623864,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,496.914583024027,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,508.326905623864,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,516,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,527,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,4,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,527,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,6,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,527,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.303171046606652,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,3.85377972729657,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,769.880000000057,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,750.539999999999,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,753.414583024027,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,781.826905623864,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,485.914583024027,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,522.326905623864,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,538,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,521,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,26,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,521,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,28,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,521,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.505244292691693,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,53.4692772584009,,,"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 769.880 (pixel)
Y 750.540 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae802022010xi3_0_3x3n066a_cl.evt+1'
EA1 190.683240454954 (deg)
EA2 86.944532709041 (deg)
EA3 338.003346695165 (deg)
REF_ALPHA 190.6832 (deg) / 12h42m44.0s
REF_DELTA 3.0555 (deg) / +3d03m20s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 250318868.000 / 2007-12-07T05:01:07 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 ( 190.6828 , 3.0503 ) [deg] / ( 12h42m43.9s , +3d03m01s )
B1950 ( 190.0449 , 3.3242 ) [deg] / ( 12h40m10.8s , +3d19m27s )
Galactic ( 297.6165 , 65.8322 ) [deg]
Aberration ( -8.5852 , 1.1796 ) [arcsec], Ang.Distance = 8.6538
XRS SKY ( 769.8798 , 750.5425 ) [pixel]
XRS FOC ( 753.4167 , 781.8251 ) [pixel]
XRS DET ( 113.4167 , 141.8251 ) [pixel]
XRS THETA/PHI 0.3496 [arcmin] / -138.5417 [deg]
XRS PIXEL = 8
HXD SKY ( 769.8800 , 750.5400 ) [pixel]
HXD FOC ( 753.4146 , 781.8269 ) [pixel]
HXD DET ( 954.9116 , 781.8269 ) [pixel]
HXD THETA/PHI 3.2462 [arcmin] / -4.0892 [deg]
XIS0 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS0 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS0 DET ( 493.9146 , 514.3269 ) [pixel]
XIS0 ACT ( 530 , 513 ) [pixel]
XIS0 RAW ( 18 , 513 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 20 , 513 ) [pixel]
XIS0 THETA/PHI 1.6055 [arcmin] / -169.5108 [deg]
XIS1 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS1 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS1 DET ( 493.9146 , 519.3269 ) [pixel]
XIS1 ACT ( 518 , 493 ) [pixel]
XIS1 RAW ( 6 , 493 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 8 , 493 ) [pixel]
XIS1 THETA/PHI 1.2389 [arcmin] / -139.0697 [deg]
XIS2 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS2 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS2 DET ( 496.9146 , 508.3269 ) [pixel]
XIS2 ACT ( 516 , 527 ) [pixel]
XIS2 RAW ( 4 , 527 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 6 , 527 ) [pixel]
XIS2 THETA/PHI 0.3032 [arcmin] / 3.8538 [deg]
XIS3 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS3 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS3 DET ( 485.9146 , 522.3269 ) [pixel]
XIS3 ACT ( 538 , 521 ) [pixel]
XIS3 RAW ( 26 , 521 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 28 , 521 ) [pixel]
XIS3 THETA/PHI 0.5052 [arcmin] / 53.4693 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae802022010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(769,750,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_0_3x3n066a_cl.evt
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100% completed
Total Good Bad: Region Time Phase Grade Cut
20836 3838 16998 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
20836 3838 16998 0 0 0 0
in 63765. seconds
Spectrum has 3838 counts for 6.0190E-02 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
20836 5411 15425 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
20836 5411 15425 0 0 0 0
in 63765. seconds
Spectrum has 5411 counts for 8.4859E-02 counts/sec
... written the PHA data Extension
-> Creating RMF for ae802022010xi3_0_3x3n066a_sr.piinfile,s,h,"ae802022010xi3_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 ae802022010xi3_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 - 63765. 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 - 121 are grouped by a factor 122 ... 122 - 137 are grouped by a factor 16 ... 138 - 146 are grouped by a factor 9 ... 147 - 161 are grouped by a factor 15 ... 162 - 175 are grouped by a factor 14 ... 176 - 191 are grouped by a factor 8 ... 192 - 198 are grouped by a factor 7 ... 199 - 202 are grouped by a factor 4 ... 203 - 208 are grouped by a factor 6 ... 209 - 212 are grouped by a factor 4 ... 213 - 217 are grouped by a factor 5 ... 218 - 221 are grouped by a factor 4 ... 222 - 239 are grouped by a factor 3 ... 240 - 243 are grouped by a factor 2 ... 244 - 252 are grouped by a factor 3 ... 253 - 254 are grouped by a factor 2 ... 255 - 257 are grouped by a factor 3 ... 258 - 261 are grouped by a factor 2 ... 262 - 264 are grouped by a factor 3 ... 265 - 266 are grouped by a factor 2 ... 267 - 278 are grouped by a factor 3 ... 279 - 294 are grouped by a factor 4 ... 295 - 301 are grouped by a factor 7 ... 302 - 331 are grouped by a factor 5 ... 332 - 339 are grouped by a factor 8 ... 340 - 351 are grouped by a factor 6 ... 352 - 358 are grouped by a factor 7 ... 359 - 368 are grouped by a factor 5 ... 369 - 386 are grouped by a factor 6 ... 387 - 395 are grouped by a factor 9 ... 396 - 407 are grouped by a factor 6 ... 408 - 412 are grouped by a factor 5 ... 413 - 418 are grouped by a factor 6 ... 419 - 426 are grouped by a factor 8 ... 427 - 446 are grouped by a factor 10 ... 447 - 461 are grouped by a factor 15 ... 462 - 473 are grouped by a factor 12 ... 474 - 491 are grouped by a factor 9 ... 492 - 499 are grouped by a factor 8 ... 500 - 511 are grouped by a factor 12 ... 512 - 525 are grouped by a factor 14 ... 526 - 535 are grouped by a factor 10 ... 536 - 549 are grouped by a factor 14 ... 550 - 561 are grouped by a factor 12 ... 562 - 578 are grouped by a factor 17 ... 579 - 591 are grouped by a factor 13 ... 592 - 606 are grouped by a factor 15 ... 607 - 625 are grouped by a factor 19 ... 626 - 648 are grouped by a factor 23 ... 649 - 672 are grouped by a factor 24 ... 673 - 703 are grouped by a factor 31 ... 704 - 751 are grouped by a factor 24 ... 752 - 777 are grouped by a factor 26 ... 778 - 808 are grouped by a factor 31 ... 809 - 834 are grouped by a factor 26 ... 835 - 868 are grouped by a factor 34 ... 869 - 907 are grouped by a factor 39 ... 908 - 927 are grouped by a factor 20 ... 928 - 974 are grouped by a factor 47 ... 975 - 1011 are grouped by a factor 37 ... 1012 - 1043 are grouped by a factor 32 ... 1044 - 1084 are grouped by a factor 41 ... 1085 - 1124 are grouped by a factor 40 ... 1125 - 1184 are grouped by a factor 60 ... 1185 - 1221 are grouped by a factor 37 ... 1222 - 1266 are grouped by a factor 45 ... 1267 - 1303 are grouped by a factor 37 ... 1304 - 1343 are grouped by a factor 40 ... 1344 - 1380 are grouped by a factor 37 ... 1381 - 1432 are grouped by a factor 52 ... 1433 - 1477 are grouped by a factor 45 ... 1478 - 1509 are grouped by a factor 32 ... 1510 - 1548 are grouped by a factor 39 ... 1549 - 1598 are grouped by a factor 50 ... 1599 - 1630 are grouped by a factor 32 ... 1631 - 1702 are grouped by a factor 72 ... 1703 - 1740 are grouped by a factor 38 ... 1741 - 1797 are grouped by a factor 57 ... 1798 - 1871 are grouped by a factor 74 ... 1872 - 1954 are grouped by a factor 83 ... 1955 - 2005 are grouped by a factor 51 ... 2006 - 2030 are grouped by a factor 25 ... 2031 - 2043 are grouped by a factor 13 ... 2044 - 2054 are grouped by a factor 11 ... 2055 - 2066 are grouped by a factor 12 ... 2067 - 2086 are grouped by a factor 20 ... 2087 - 2135 are grouped by a factor 49 ... 2136 - 2225 are grouped by a factor 90 ... 2226 - 2269 are grouped by a factor 44 ... 2270 - 2332 are grouped by a factor 63 ... 2333 - 2390 are grouped by a factor 58 ... 2391 - 2470 are grouped by a factor 80 ... 2471 - 2563 are grouped by a factor 93 ... 2564 - 2624 are grouped by a factor 61 ... 2625 - 2657 are grouped by a factor 33 ... 2658 - 2697 are grouped by a factor 40 ... 2698 - 2796 are grouped by a factor 99 ... 2797 - 2908 are grouped by a factor 112 ... 2909 - 2996 are grouped by a factor 88 ... 2997 - 3073 are grouped by a factor 77 ... 3074 - 3139 are grouped by a factor 66 ... 3140 - 3193 are grouped by a factor 54 ... 3194 - 3261 are grouped by a factor 68 ... 3262 - 3352 are grouped by a factor 91 ... 3353 - 3468 are grouped by a factor 116 ... 3469 - 3565 are grouped by a factor 97 ... 3566 - 3673 are grouped by a factor 108 ... 3674 - 3802 are grouped by a factor 129 ... 3803 - 3932 are grouped by a factor 130 ... 3933 - 4095 are grouped by a factor 163 ... --------------------------------------------- ... 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 ae802022010xi3_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 ae802022010xi1_0_3x3n069b_sr.pi;
1 spectrum in use
Spectral Data File: ae802022010xi1_0_3x3n069b_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 1.626e-02 +/- 2.643e-03 (5.8 % total)
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-508
Telescope: SUZAKU Instrument: XIS1 Channel Type: PI
Exposure Time: 6.376e+04 sec
Using Background File ae802022010xi1_0_3x3n069b_bg.pi
Background Exposure Time: 6.376e+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 2:2 ae802022010xi3_0_3x3n066a_sr.pi;
2 spectra in use
Spectral Data File: ae802022010xi3_0_3x3n066a_sr.pi Spectrum 2
Net count rate (cts/s) for Spectrum:2 7.447e-03 +/- 1.207e-03 (12.4 % total)
Assigned to Data Group 2 and Plot Group 2
Noticed Channels: 1-141
Telescope: SUZAKU Instrument: XIS3 Channel Type: PI
Exposure Time: 6.376e+04 sec
Using Background File ae802022010xi3_0_3x3n066a_bg.pi
Background Exposure Time: 6.376e+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: 167 channels ignored from source number 1
ignore: 8 channels ignored from source number 2
!XSPEC12>ignore *:**-0.2 12.0-**;
27 channels (1-27) ignored in spectrum # 1
1 channels (1) ignored in spectrum # 2
129 channels (380-508) ignored in spectrum # 1
8 channels (134-141) ignored in spectrum # 2
!XSPEC12>setplot splashpage off;
!XSPEC12>setplot energy;
!XSPEC12>setplot device ae802022010xis_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 4636 NORTH (Sequence 802022010);
!XSPEC12>setplot com label file Exposure time: 127.5ks (total from all detectors);
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae802022010xis_0_pi.gif.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_0_3x3n069b_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
91795 91795 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
91795 91795 0 0 0 0 0
in 63765. seconds
Image has 91795 counts for 1.440 counts/sec
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_0_3x3n066a_cl.evt
10% completed
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100% completed
Total Good Bad: Region Time Phase Grade Cut
20836 20836 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
20836 20836 0 0 0 0 0
in 63765. seconds
Image has 20836 counts for 0.3268 counts/sec
-> Creating four panel plot.No of detectors read in: 30 ![XIMAGE> cpd ae802022010xis_0_im.gif/gif ![XIMAGE> cey 2000 ![XIMAGE> viewport 2x1 ![XIMAGE> read/fits/rebin=2/size=-20 ae802022010xi1_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 = 5.0000000 Copied MAP1 to MAP9 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 5. ![XIMAGE> ra_dec/ra=190.6828/dec=3.0503/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 769.879735003 Y = 750.537996753 ![XIMAGE> ra_dec/ra=190.6828/dec=3.0503/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 769.879735003 Y = 750.537996753 ![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 $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> read/fits/rebin=2/size=-20 ae802022010xi3_0_3x3n066a_sk.img Telescope SUZAKU XIS3 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 4.0000000 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 4. ![XIMAGE> ra_dec/ra=190.6828/dec=3.0503/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 769.879735003 Y = 750.537996753 ![XIMAGE> ra_dec/ra=190.6828/dec=3.0503/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 769.879735003 Y = 750.537996753 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$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 802022010)" ![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,"ae802022010hxd_1_wam_uf.evt",,,"HXD wam fits file name ?" outroot,s,a,"ae802022010hxd",,,"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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 351593
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 351592/351593
[ 2] HXDleapsecInit version 2.0.1
| OK: 351592/351592
[ 3] HXDmktrnlc version 2.0.0
| OK: 351592/351592
GET: 351592
*** 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 351592 351592 SINGLE
HXD:TRN:PACKET_AETIME 8 8 351592 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 351592 703184 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 351592 0 SINGLE
HXD:TRB:IBLOCK 4 4 351592 703184 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 351592 351592 SINGLE
HXD:TRN:BOARD 4 4 351592 703184 SINGLE
HXD:TRN:BLOCK 4 4 351592 703184 SINGLE
HXD:TRN:RDBIN 4 4 351592 703184 SINGLE
HXD:TRN:TBLID 4 4 351592 703184 SINGLE
HXD:TRN:DATA_SIZE 4 4 351592 703184 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 351592 703184 SINGLE
HXD:TRH:BLOCK 4 4 351592 703184 SINGLE
HXD:TRH:TIME 4 4 351592 351592 SINGLE
HXD:TRH:GB_TIME 4 4 351592 351592 SINGLE
HXD:TRH:GB_FLG 4 4 351592 703184 SINGLE
HXD:TRH:TIME_MODE 4 4 351592 703184 SINGLE
HXD:TRH:RBM 4 4 351592 703184 SINGLE
HXD:TRH:GB_FRZ 4 4 351592 703184 SINGLE
HXD:TRH:DT_MODE 4 4 351592 703184 SINGLE
HXD:TRH:SUMLD_MODE 4 4 351592 703184 SINGLE
HXD:TRH:BOARD 4 4 351592 703184 SINGLE
HXD:TRH:GB_TRG 4 4 351592 703184 SINGLE
HXD:TRB:PI 216 216 351592 0 SINGLE
HXD:TRB:PH 216 216 351592 703184 SINGLE
HXD:TRB:OVER_FLOW 4 4 351592 703184 SINGLE
HXD:TRB:PSEUDO 4 4 351592 703184 SINGLE
HXD:TRB:TRN_ANT 20 20 351592 703184 SINGLE
HXD:TRB:UD 4 4 351592 703184 SINGLE
HXD:TRB:DEAD_TIME 4 4 351592 703184 SINGLE
HXD:TRB:SUM_LD 4 4 351592 703184 SINGLE
HXD:TRB:WELL_ANT 16 16 351592 703184 SINGLE
HXD:TRN:TRN_QUALITY 4 4 351592 0 SINGLE
HXDtrnFitsRead:IROW 4 4 351592 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 351592 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 7.648 0.428 8.076 75.63
[ 2] HXDleapsecInit 0.110 0.206 0.316 2.96
[ 3] HXDmktrnlc 1.805 0.454 2.259 21.15
(others) 0.017 0.010 0.027 0.25
--------------------------------------------------------------------------
TOTAL 9.580 1.098 10.677 100.00
-> 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,"ae802022010hxd_2_wam_uf.evt",,,"HXD wam fits file name ?" outroot,s,a,"ae802022010hxd",,,"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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 285681
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 285680/285681
[ 2] HXDleapsecInit version 2.0.1
| OK: 285680/285680
[ 3] HXDmktrnlc version 2.0.0
| OK: 285680/285680
GET: 285680
*** 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 285680 285680 SINGLE
HXD:TRN:PACKET_AETIME 8 8 285680 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 285680 571360 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 285680 0 SINGLE
HXD:TRB:IBLOCK 4 4 285680 571360 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 285680 285680 SINGLE
HXD:TRN:BOARD 4 4 285680 571360 SINGLE
HXD:TRN:BLOCK 4 4 285680 571360 SINGLE
HXD:TRN:RDBIN 4 4 285680 571360 SINGLE
HXD:TRN:TBLID 4 4 285680 571360 SINGLE
HXD:TRN:DATA_SIZE 4 4 285680 571360 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 285680 571360 SINGLE
HXD:TRH:BLOCK 4 4 285680 571360 SINGLE
HXD:TRH:TIME 4 4 285680 285680 SINGLE
HXD:TRH:GB_TIME 4 4 285680 285680 SINGLE
HXD:TRH:GB_FLG 4 4 285680 571360 SINGLE
HXD:TRH:TIME_MODE 4 4 285680 571360 SINGLE
HXD:TRH:RBM 4 4 285680 571360 SINGLE
HXD:TRH:GB_FRZ 4 4 285680 571360 SINGLE
HXD:TRH:DT_MODE 4 4 285680 571360 SINGLE
HXD:TRH:SUMLD_MODE 4 4 285680 571360 SINGLE
HXD:TRH:BOARD 4 4 285680 571360 SINGLE
HXD:TRH:GB_TRG 4 4 285680 571360 SINGLE
HXD:TRB:PI 216 216 285680 0 SINGLE
HXD:TRB:PH 216 216 285680 571360 SINGLE
HXD:TRB:OVER_FLOW 4 4 285680 571360 SINGLE
HXD:TRB:PSEUDO 4 4 285680 571360 SINGLE
HXD:TRB:TRN_ANT 20 20 285680 571360 SINGLE
HXD:TRB:UD 4 4 285680 571360 SINGLE
HXD:TRB:DEAD_TIME 4 4 285680 571360 SINGLE
HXD:TRB:SUM_LD 4 4 285680 571360 SINGLE
HXD:TRB:WELL_ANT 16 16 285680 571360 SINGLE
HXD:TRN:TRN_QUALITY 4 4 285680 0 SINGLE
HXDtrnFitsRead:IROW 4 4 285680 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 285680 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 6.470 0.271 6.741 77.05
[ 2] HXDleapsecInit 0.082 0.137 0.219 2.50
[ 3] HXDmktrnlc 1.396 0.366 1.762 20.14
(others) 0.019 0.008 0.027 0.31
--------------------------------------------------------------------------
TOTAL 7.967 0.782 8.749 100.00
-> 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: ae802022010hxd_0_gsono_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
2343108 2343108 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
2343108 2343108 0 0 0 0 0
in 61781. seconds
Fits light curve has 2343108 counts for 37.93 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
-> 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: ae802022010hxd_0_pinno_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
31828 31828 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
31828 31828 0 0 0 0 0
in 61781. seconds
Fits light curve has 31828 counts for 0.5152 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
-> lcurve cmd: color 1 on 2
lcurve 1.0 (xronos5.21)
Series 1 file 1:ae802022010hxd_0_gsono_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ NGC 4636 NORTH Start Time (d) .... 14441 05:14:07.507
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14443 00:53:26.184
No. of Rows ....... 676 Bin Time (s) ...... 97.05
Right Ascension ... 190.6828 Internal time sys.. Converted to TJD
Declination ....... 3.0503 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:ae802022010hxd_0_pinno_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ NGC 4636 NORTH Start Time (d) .... 14441 05:14:07.507
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14443 00:53:26.184
No. of Rows ....... 676 Bin Time (s) ...... 97.05
Right Ascension ... 190.6828 Internal time sys.. Converted to TJD
Declination ....... 3.0503 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 ... 14441.21814244695 (days) 5:14: 7:507 (h:m:s:ms)
Expected Stop .... 14443.03710861111 (days) 0:53:26:184 (h:m:s:ms)
Minimum Newbin Time 97.050000 (s)
for Maximum Newbin No.. 1620
Default Newbin Time is: 307.31067 (s) (to have 1 Intv. of 512 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 307.31067 (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 307.311 (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
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Intv 1 Start 14441 5:16:41
Ser.1 Avg 38.01 Chisq 6981. Var 7.822 Newbs. 236
Min 33.48 Max 46.80 expVar 0.2944 Bins 676
Ser.2 Avg 0.5287 Chisq 597.2 Var 0.1225E-01 Newbs. 236
Min 0.2834 Max 0.9757 expVar 0.4380E-02 Bins 676
-> Creating light curves for XIS.Input sky coordinates: 1.9068280000000E+02, 3.0503000000000E+00 Output pixel coordinates: 7.6987973500293E+02, 7.5053799675273E+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,"ae802022010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,190.683240454954,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,86.944532709041,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,338.003346695165,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"190.6832",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"3.0555",,,"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,"250318868.000000",,,"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,190.682799930823,,,"R.A. (J2000) in deg" deltaJ2000,r,a,3.05030067935031,,,"DEC. (J2000) in deg" alphaB1950,r,a,190.044921811468,,,"R.A. (B1950) in deg" deltaB1950,r,a,3.32415087761267,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00238477382021074,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.0003276795441014,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,8.6538025831341,,,"angular difference in arcsec by aberration" l,r,a,297.616492291718,,,"Galactic longitude (deg)" b,r,a,65.8321506784176,,,"Galactic latitude (deg)" x,r,a,769.88,,,"X value of SKY coorindates (pixel)" y,r,a,750.54,,,"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,769.879808360007,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,750.542494098041,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,753.41667792987,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,781.825054921791,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,113.41667792987,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,141.825054921791,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.349633861700776,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-138.541664684416,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,769.87999952089,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,750.540006236108,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,753.414588262017,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,781.826900996468,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,954.911588262017,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,781.826900996468,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.24617159500376,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.08922141365636,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,769.880000000057,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,750.539999999999,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,753.414583024027,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,781.826905623864,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,493.914583024027,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,514.326905623864,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,530,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,513,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,18,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,513,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,20,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,513,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.60547818075844,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.510794758967,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,769.880000000057,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,750.539999999999,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,753.414583024027,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,781.826905623864,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,493.914583024027,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,519.326905623864,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,518,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,493,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,6,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,493,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,8,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,493,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.23886548118407,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-139.069705128718,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,769.880000000057,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,750.539999999999,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,753.414583024027,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,781.826905623864,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,496.914583024027,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,508.326905623864,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,516,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,527,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,4,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,527,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,6,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,527,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.303171046606652,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,3.85377972729657,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,769.880000000057,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,750.539999999999,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,753.414583024027,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,781.826905623864,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,485.914583024027,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,522.326905623864,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,538,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,521,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,26,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,521,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,28,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,521,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.505244292691693,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,53.4692772584009,,,"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 769.880 (pixel)
Y 750.540 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae802022010xi1_0_3x3n069b_cl.evt+1'
EA1 190.683240454954 (deg)
EA2 86.944532709041 (deg)
EA3 338.003346695165 (deg)
REF_ALPHA 190.6832 (deg) / 12h42m44.0s
REF_DELTA 3.0555 (deg) / +3d03m20s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 250318868.000 / 2007-12-07T05:01:07 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 ( 190.6828 , 3.0503 ) [deg] / ( 12h42m43.9s , +3d03m01s )
B1950 ( 190.0449 , 3.3242 ) [deg] / ( 12h40m10.8s , +3d19m27s )
Galactic ( 297.6165 , 65.8322 ) [deg]
Aberration ( -8.5852 , 1.1796 ) [arcsec], Ang.Distance = 8.6538
XRS SKY ( 769.8798 , 750.5425 ) [pixel]
XRS FOC ( 753.4167 , 781.8251 ) [pixel]
XRS DET ( 113.4167 , 141.8251 ) [pixel]
XRS THETA/PHI 0.3496 [arcmin] / -138.5417 [deg]
XRS PIXEL = 8
HXD SKY ( 769.8800 , 750.5400 ) [pixel]
HXD FOC ( 753.4146 , 781.8269 ) [pixel]
HXD DET ( 954.9116 , 781.8269 ) [pixel]
HXD THETA/PHI 3.2462 [arcmin] / -4.0892 [deg]
XIS0 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS0 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS0 DET ( 493.9146 , 514.3269 ) [pixel]
XIS0 ACT ( 530 , 513 ) [pixel]
XIS0 RAW ( 18 , 513 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 20 , 513 ) [pixel]
XIS0 THETA/PHI 1.6055 [arcmin] / -169.5108 [deg]
XIS1 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS1 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS1 DET ( 493.9146 , 519.3269 ) [pixel]
XIS1 ACT ( 518 , 493 ) [pixel]
XIS1 RAW ( 6 , 493 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 8 , 493 ) [pixel]
XIS1 THETA/PHI 1.2389 [arcmin] / -139.0697 [deg]
XIS2 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS2 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS2 DET ( 496.9146 , 508.3269 ) [pixel]
XIS2 ACT ( 516 , 527 ) [pixel]
XIS2 RAW ( 4 , 527 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 6 , 527 ) [pixel]
XIS2 THETA/PHI 0.3032 [arcmin] / 3.8538 [deg]
XIS3 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS3 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS3 DET ( 485.9146 , 522.3269 ) [pixel]
XIS3 ACT ( 538 , 521 ) [pixel]
XIS3 RAW ( 26 , 521 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 28 , 521 ) [pixel]
XIS3 THETA/PHI 0.5052 [arcmin] / 53.4693 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae802022010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(769,750,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi1_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
91795 8530 83265 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
91795 8530 83265 0 0 0 0
in 63765. seconds
Fits light curve has 8530 counts for 0.1338 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: 1.9068280000000E+02, 3.0503000000000E+00 Output pixel coordinates: 7.6987973500293E+02, 7.5053799675273E+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,"ae802022010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,190.683240454954,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,86.944532709041,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,338.003346695165,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"190.6832",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"3.0555",,,"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,"250318868.000000",,,"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,190.682799930823,,,"R.A. (J2000) in deg" deltaJ2000,r,a,3.05030067935031,,,"DEC. (J2000) in deg" alphaB1950,r,a,190.044921811468,,,"R.A. (B1950) in deg" deltaB1950,r,a,3.32415087761267,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00238477382021074,,,"R.A. difference in deg by aberration" aber_delta,r,a,0.0003276795441014,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,8.6538025831341,,,"angular difference in arcsec by aberration" l,r,a,297.616492291718,,,"Galactic longitude (deg)" b,r,a,65.8321506784176,,,"Galactic latitude (deg)" x,r,a,769.88,,,"X value of SKY coorindates (pixel)" y,r,a,750.54,,,"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,769.879808360007,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,750.542494098041,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,753.41667792987,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,781.825054921791,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,113.41667792987,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,141.825054921791,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.349633861700776,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-138.541664684416,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,769.87999952089,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,750.540006236108,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,753.414588262017,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,781.826900996468,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,954.911588262017,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,781.826900996468,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.24617159500376,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.08922141365636,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,769.880000000057,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,750.539999999999,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,753.414583024027,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,781.826905623864,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,493.914583024027,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,514.326905623864,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,530,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,513,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,18,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,513,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,20,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,513,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.60547818075844,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.510794758967,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,769.880000000057,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,750.539999999999,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,753.414583024027,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,781.826905623864,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,493.914583024027,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,519.326905623864,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,518,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,493,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,6,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,493,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,8,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,493,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.23886548118407,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-139.069705128718,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,769.880000000057,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,750.539999999999,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,753.414583024027,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,781.826905623864,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,496.914583024027,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,508.326905623864,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,516,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,527,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,4,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,527,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,6,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,527,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.303171046606652,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,3.85377972729657,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,769.880000000057,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,750.539999999999,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,753.414583024027,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,781.826905623864,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,485.914583024027,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,522.326905623864,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,538,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,521,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,26,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,521,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,28,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,521,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.505244292691693,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,53.4692772584009,,,"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 769.880 (pixel)
Y 750.540 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae802022010xi3_0_3x3n066a_cl.evt+1'
EA1 190.683240454954 (deg)
EA2 86.944532709041 (deg)
EA3 338.003346695165 (deg)
REF_ALPHA 190.6832 (deg) / 12h42m44.0s
REF_DELTA 3.0555 (deg) / +3d03m20s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 250318868.000 / 2007-12-07T05:01:07 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 ( 190.6828 , 3.0503 ) [deg] / ( 12h42m43.9s , +3d03m01s )
B1950 ( 190.0449 , 3.3242 ) [deg] / ( 12h40m10.8s , +3d19m27s )
Galactic ( 297.6165 , 65.8322 ) [deg]
Aberration ( -8.5852 , 1.1796 ) [arcsec], Ang.Distance = 8.6538
XRS SKY ( 769.8798 , 750.5425 ) [pixel]
XRS FOC ( 753.4167 , 781.8251 ) [pixel]
XRS DET ( 113.4167 , 141.8251 ) [pixel]
XRS THETA/PHI 0.3496 [arcmin] / -138.5417 [deg]
XRS PIXEL = 8
HXD SKY ( 769.8800 , 750.5400 ) [pixel]
HXD FOC ( 753.4146 , 781.8269 ) [pixel]
HXD DET ( 954.9116 , 781.8269 ) [pixel]
HXD THETA/PHI 3.2462 [arcmin] / -4.0892 [deg]
XIS0 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS0 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS0 DET ( 493.9146 , 514.3269 ) [pixel]
XIS0 ACT ( 530 , 513 ) [pixel]
XIS0 RAW ( 18 , 513 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 20 , 513 ) [pixel]
XIS0 THETA/PHI 1.6055 [arcmin] / -169.5108 [deg]
XIS1 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS1 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS1 DET ( 493.9146 , 519.3269 ) [pixel]
XIS1 ACT ( 518 , 493 ) [pixel]
XIS1 RAW ( 6 , 493 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 8 , 493 ) [pixel]
XIS1 THETA/PHI 1.2389 [arcmin] / -139.0697 [deg]
XIS2 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS2 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS2 DET ( 496.9146 , 508.3269 ) [pixel]
XIS2 ACT ( 516 , 527 ) [pixel]
XIS2 RAW ( 4 , 527 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 6 , 527 ) [pixel]
XIS2 THETA/PHI 0.3032 [arcmin] / 3.8538 [deg]
XIS3 SKY ( 769.8800 , 750.5400 ) [pixel]
XIS3 FOC ( 753.4146 , 781.8269 ) [pixel]
XIS3 DET ( 485.9146 , 522.3269 ) [pixel]
XIS3 ACT ( 538 , 521 ) [pixel]
XIS3 RAW ( 26 , 521 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 28 , 521 ) [pixel]
XIS3 THETA/PHI 0.5052 [arcmin] / 53.4693 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae802022010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(769,750,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae802022010xi3_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
20836 1853 18983 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
20836 1853 18983 0 0 0 0
in 63765. seconds
Fits light curve has 1853 counts for 2.9060E-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:ae802022010xi1_0_3x3n069b_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ NGC 4636 NORTH Start Time (d) .... 14441 06:22:31.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14443 00:49:26.184
No. of Rows ....... 447 Bin Time (s) ...... 153.0
Right Ascension ... 190.6828 Internal time sys.. Converted to TJD
Declination ....... 3.0503 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 2 file 1:ae802022010xi3_0_3x3n066a_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ NGC 4636 NORTH Start Time (d) .... 14441 06:22:31.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14443 00:49:26.184
No. of Rows ....... 447 Bin Time (s) ...... 153.0
Right Ascension ... 190.6828 Internal time sys.. Converted to TJD
Declination ....... 3.0503 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 ... 14441.26563870370 (days) 6:22:31:184 (h:m:s:ms)
Expected Stop .... 14443.03433083333 (days) 0:49:26:184 (h:m:s:ms)
Minimum Newbin Time 153.02000 (s)
for Maximum Newbin No.. 999
Default Newbin Time is: 298.81697 (s) (to have 1 Intv. of 512 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 298.81697 (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 298.817 (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
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Intv 1 Start 14441 6:25: 0
Ser.1 Avg 0.1382 Chisq 586.4 Var 0.5912E-02 Newbs. 245
Min 0.000 Max 1.009 expVar 0.1017E-02 Bins 447
Ser.2 Avg 0.2925E-01 Chisq 146.8 Var 0.1789E-03 Newbs. 245
Min 0.000 Max 0.9488E-01expVar 0.1959E-03 Bins 447
-> Creating light curves for BST.read_iomode,s,h,"readonly",,,"HXD bst fits input I/O mode : always readonly" input_name,fr,a,"ae802022010hxd_2_bst01_uf.evt",,,"HXD bst fits file name?" outroot,s,a,"ae802022010hxd_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 0.017 0.001 0.018 8.87
[ 2] HXDmkbstlc 0.110 0.054 0.164 80.79
(others) 0.009 0.012 0.021 10.34
--------------------------------------------------------------------------
TOTAL 0.136 0.067 0.203 100.00
-> hxdmkbstlc ran successfully.read_iomode,s,h,"readonly",,,"HXD bst fits input I/O mode : always readonly" input_name,fr,a,"ae802022010hxd_2_bst02_uf.evt",,,"HXD bst fits file name?" outroot,s,a,"ae802022010hxd_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 0.014 0.001 0.015 7.69
[ 2] HXDmkbstlc 0.103 0.059 0.162 83.08
(others) 0.010 0.008 0.018 9.23
--------------------------------------------------------------------------
TOTAL 0.127 0.068 0.195 100.00
-> hxdmkbstlc ran successfully.read_iomode,s,h,"readonly",,,"HXD bst fits input I/O mode : always readonly" input_name,fr,a,"ae802022010hxd_2_bst03_uf.evt",,,"HXD bst fits file name?" outroot,s,a,"ae802022010hxd_2_bst03",,,"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 0.015 0.003 0.018 8.87
[ 2] HXDmkbstlc 0.101 0.064 0.165 81.28
(others) 0.012 0.008 0.020 9.85
--------------------------------------------------------------------------
TOTAL 0.128 0.075 0.203 100.00
-> hxdmkbstlc ran successfully.